John Neumaier

https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&query_key=1&WebEnv=MCID_63915e8b9bed0d6c8d202662&retmode=json

Resource id #317 -- array(2) { ["header"]=> array(2) { ["type"]=> string(8) "esummary" ["version"]=> string(3) "0.3" } ["result"]=> array(102) { ["uids"]=> array(101) { [0]=> string(8) "35441155" [1]=> string(8) "35304804" [2]=> string(8) "34564712" [3]=> string(8) "33370241" [4]=> string(8) "33344721" [5]=> string(8) "32366949" [6]=> string(8) "31994279" [7]=> string(8) "31958800" [8]=> string(8) "31502538" [9]=> string(8) "31003231" [10]=> string(8) "30946562" [11]=> string(8) "30610191" [12]=> string(8) "30083593" [13]=> string(8) "29955167" [14]=> string(8) "29678909" [15]=> string(8) "28748785" [16]=> string(8) "28664636" [17]=> string(8) "28237815" [18]=> string(8) "28087224" [19]=> string(8) "27032690" [20]=> string(8) "26657954" [21]=> string(8) "26289144" [22]=> string(8) "25934037" [23]=> string(8) "25907441" [24]=> string(8) "27331085" [25]=> string(8) "25019563" [26]=> string(8) "26054767" [27]=> string(8) "24231358" [28]=> string(8) "24231353" [29]=> string(8) "24075973" [30]=> string(8) "23843534" [31]=> string(8) "23223282" [32]=> string(8) "23085473" [33]=> string(8) "22961814" [34]=> string(8) "22541946" [35]=> string(8) "22157861" [36]=> string(8) "22018355" [37]=> string(8) "21918519" [38]=> string(8) "21893657" [39]=> string(8) "21835346" [40]=> string(8) "21718722" [41]=> string(8) "21714816" [42]=> string(8) "21620956" [43]=> string(8) "21437992" [44]=> string(8) "21353664" [45]=> string(8) "21182901" [46]=> string(8) "21131952" [47]=> string(8) "21088040" [48]=> string(8) "20843634" [49]=> string(8) "20713085" [50]=> string(8) "20480149" [51]=> string(8) "20172504" [52]=> string(8) "19817843" [53]=> string(8) "19659573" [54]=> string(8) "19524553" [55]=> string(8) "19396878" [56]=> string(8) "19295158" [57]=> string(8) "19049819" [58]=> string(8) "18502320" [59]=> string(8) "17920665" [60]=> string(8) "17631868" [61]=> string(8) "17559089" [62]=> string(8) "17509084" [63]=> string(8) "17467184" [64]=> string(8) "17192775" [65]=> string(8) "17059838" [66]=> string(8) "16917826" [67]=> string(8) "16839853" [68]=> string(8) "16458260" [69]=> string(8) "16298400" [70]=> string(8) "16154649" [71]=> string(8) "16010284" [72]=> string(8) "16005519" [73]=> string(8) "15885246" [74]=> string(8) "15342998" [75]=> string(8) "15064139" [76]=> string(8) "14978467" [77]=> string(8) "14749205" [78]=> string(8) "12957218" [79]=> string(8) "12644357" [80]=> string(8) "12550744" [81]=> string(8) "12486179" [82]=> string(8) "12397864" [83]=> string(8) "12040062" [84]=> string(8) "12022964" [85]=> string(8) "11173221" [86]=> string(8) "11042358" [87]=> string(8) "10889351" [88]=> string(8) "10861803" [89]=> string(8) "10716199" [90]=> string(8) "10578240" [91]=> string(8) "10067953" [92]=> string(7) "9066990" [93]=> string(7) "8914125" [94]=> string(7) "8813349" [95]=> string(7) "1978741" [96]=> string(7) "2557959" [97]=> string(7) "2765901" [98]=> string(7) "2894454" [99]=> string(7) "2899843" [100]=> string(7) "2893261" } [35441155]=> array(43) { ["uid"]=> string(8) "35441155" ["pubdate"]=> string(8) "2022 Apr" ["epubdate"]=> string(10) "2021 Aug 5" ["source"]=> string(29) "Biol Psychiatry Glob Open Sci" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(9) "Coffey KR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Lesiak AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "Marx RG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(5) "Vo EK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Garden GA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(101) "A cAMP-Related Gene Network in Microglia Is Inversely Regulated by Morphine Tolerance and Withdrawal." ["sorttitle"]=> string(98) "camp related gene network in microglia is inversely regulated by morphine tolerance and withdrawal" ["volume"]=> string(1) "2" ["issue"]=> string(1) "2" ["pages"]=> string(7) "180-189" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(16) "9918227369306676" ["issn"]=> string(0) "" ["essn"]=> string(9) "2667-1743" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(6) "PubMed" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(8) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "35441155" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1792913" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC9015218" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC9015218;manuscript-id: NIHMS1792913;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1016/j.bpsgos.2021.07.011" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S2667-1743(21)00088-4" } [6]=> array(3) { ["idtype"]=> string(7) "version" ["idtypen"]=> int(8) ["value"]=> string(1) "2" } [7]=> array(3) { ["idtype"]=> string(10) "version-id" ["idtypen"]=> int(8) ["value"]=> string(1) "2" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2022/04/20 05:56" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2022/04/21 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/04/21 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(48) ["fulljournalname"]=> string(41) "Biological psychiatry global open science" ["elocationid"]=> string(33) "doi: 10.1016/j.bpsgos.2021.07.011" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2022/04/01 00:00" ["sortfirstauthor"]=> string(9) "Coffey KR" ["vernaculartitle"]=> string(0) "" } [35304804]=> array(43) { ["uid"]=> string(8) "35304804" ["pubdate"]=> string(8) "2022 Sep" ["epubdate"]=> string(11) "2022 Mar 18" ["source"]=> string(17) "Genes Brain Behav" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(13) "Levinstein MR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Bergkamp DJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Lewis ZK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(13) "Tsobanoudis A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Hashikawa K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Stuber GD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(85) "PACAP-expressing neurons in the lateral habenula diminish negative emotional valence." ["sorttitle"]=> string(84) "pacap expressing neurons in the lateral habenula diminish negative emotional valence" ["volume"]=> string(2) "21" ["issue"]=> string(1) "7" ["pages"]=> string(6) "e12801" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101129617" ["issn"]=> string(9) "1601-1848" ["essn"]=> string(9) "1601-183X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "35304804" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1824201" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC9444940" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC9444940;manuscript-id: NIHMS1824201;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1111/gbb.12801" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2022/02/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2022/02/19 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2022/03/20 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/09/09 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2022/03/19 05:34" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(62) ["fulljournalname"]=> string(26) "Genes, brain, and behavior" ["elocationid"]=> string(22) "doi: 10.1111/gbb.12801" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2022/09/01 00:00" ["sortfirstauthor"]=> string(13) "Levinstein MR" ["vernaculartitle"]=> string(0) "" } [34564712]=> array(43) { ["uid"]=> string(8) "34564712" ["pubdate"]=> string(8) "2022 Mar" ["epubdate"]=> string(11) "2021 Sep 25" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(11) "Fontaine HM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Silva PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Neiswanger C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Tran R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Abraham AD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Land BB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Chavkin C" ["title"]=> string(172) "Stress decreases serotonin tone in the nucleus accumbens in male mice to promote aversion and potentiate cocaine preference via decreased stimulation of 5-HT(1B) receptors." ["sorttitle"]=> string(170) "stress decreases serotonin tone in the nucleus accumbens in male mice to promote aversion and potentiate cocaine preference via decreased stimulation of 5 ht 1b receptors" ["volume"]=> string(2) "47" ["issue"]=> string(1) "4" ["pages"]=> string(7) "891-901" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "34564712" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8882182" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(44) "pmc-id: PMC8882182;embargo-date: 2023/03/01;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(26) "10.1038/s41386-021-01178-0" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(26) "10.1038/s41386-021-01178-0" } } ["history"]=> array(7) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2021/05/25 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2021/09/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2021/08/25 00:00" } [3]=> array(2) { ["pubstatus"]=> string(11) "pmc-release" ["date"]=> string(16) "2023/03/01 00:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/09/27 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/03/03 06:00" } [6]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/09/26 21:06" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(73) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(31) "doi: 10.1038/s41386-021-01178-0" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2022/03/01 00:00" ["sortfirstauthor"]=> string(11) "Fontaine HM" ["vernaculartitle"]=> string(0) "" } [33370241]=> array(43) { ["uid"]=> string(8) "33370241" ["pubdate"]=> string(8) "2021 Jan" ["epubdate"]=> string(0) "" ["source"]=> string(13) "Pharmacol Rev" ["authors"]=> array(39) { [0]=> array(3) { ["name"]=> string(9) "Barnes NM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Ahern GP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Becamel C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Bockaert J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Camilleri M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(16) "Chaumont-Dubel S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Claeysen S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(13) "Cunningham KA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(7) "Fone KC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Gershon M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(13) "Di Giovanni G" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(13) "Goodfellow NM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [12]=> array(3) { ["name"]=> string(14) "Halberstadt AL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [13]=> array(3) { ["name"]=> string(10) "Hartley RM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [14]=> array(3) { ["name"]=> string(10) "Hassaine G" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [15]=> array(3) { ["name"]=> string(15) "Herrick-Davis K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [16]=> array(3) { ["name"]=> string(8) "Hovius R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [17]=> array(3) { ["name"]=> string(10) "Lacivita E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [18]=> array(3) { ["name"]=> string(8) "Lambe EK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [19]=> array(3) { ["name"]=> string(10) "Leopoldo M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [20]=> array(3) { ["name"]=> string(7) "Levy FO" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [21]=> array(3) { ["name"]=> string(10) "Lummis SCR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [22]=> array(3) { ["name"]=> string(7) "Marin P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [23]=> array(3) { ["name"]=> string(11) "Maroteaux L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [24]=> array(3) { ["name"]=> string(11) "McCreary AC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [25]=> array(3) { ["name"]=> string(9) "Nelson DL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [26]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [27]=> array(3) { ["name"]=> string(17) "Newman-Tancredi A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [28]=> array(3) { ["name"]=> string(6) "Nury H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [29]=> array(3) { ["name"]=> string(9) "Roberts A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [30]=> array(3) { ["name"]=> string(7) "Roth BL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [31]=> array(3) { ["name"]=> string(9) "Roumier A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [32]=> array(3) { ["name"]=> string(9) "Sanger GJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [33]=> array(3) { ["name"]=> string(9) "Teitler M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [34]=> array(3) { ["name"]=> string(7) "Sharp T" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [35]=> array(3) { ["name"]=> string(12) "Villalón CM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [36]=> array(3) { ["name"]=> string(7) "Vogel H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [37]=> array(3) { ["name"]=> string(8) "Watts SW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [38]=> array(3) { ["name"]=> string(7) "Hoyer D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(7) "Hoyer D" ["title"]=> string(139) "International Union of Basic and Clinical Pharmacology. CX. Classification of Receptors for 5-hydroxytryptamine; Pharmacology and Function." ["sorttitle"]=> string(135) "international union of basic and clinical pharmacology cx classification of receptors for 5 hydroxytryptamine pharmacology and function" ["volume"]=> string(2) "73" ["issue"]=> string(1) "1" ["pages"]=> string(7) "310-520" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0421737" ["issn"]=> string(9) "0031-6997" ["essn"]=> string(9) "1521-0081" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "33370241" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7770494" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7770494;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(21) "10.1124/pr.118.015552" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(8) "73/1/310" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/12/28 17:10" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/12/29 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/10/29 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(2643) ["fulljournalname"]=> string(23) "Pharmacological reviews" ["elocationid"]=> string(26) "doi: 10.1124/pr.118.015552" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/01/01 00:00" ["sortfirstauthor"]=> string(9) "Barnes NM" ["vernaculartitle"]=> string(0) "" } [33344721]=> array(43) { ["uid"]=> string(8) "33344721" ["pubdate"]=> string(8) "2020 Nov" ["epubdate"]=> string(11) "2020 Nov 16" ["source"]=> string(16) "Neurobiol Stress" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(13) "Levinstein MR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Coffey KR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "Marx RG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Lesiak AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(82) "Stress induces divergent gene expression among lateral habenula efferent pathways." ["sorttitle"]=> string(81) "stress induces divergent gene expression among lateral habenula efferent pathways" ["volume"]=> string(2) "13" ["issue"]=> string(0) "" ["pages"]=> string(6) "100268" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101643409" ["issn"]=> string(9) "2352-2895" ["essn"]=> string(9) "2352-2895" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(6) "PubMed" ["pubstatus"]=> string(3) "258" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "33344721" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7739173" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7739173;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(27) "10.1016/j.ynstr.2020.100268" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S2352-2895(20)30058-8" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/05/17 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2020/11/05 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/11/10 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/12/21 06:09" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/12/22 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/12/22 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(57) ["fulljournalname"]=> string(22) "Neurobiology of stress" ["elocationid"]=> string(32) "doi: 10.1016/j.ynstr.2020.100268" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/11/16 00:00" ["sortfirstauthor"]=> string(13) "Levinstein MR" ["vernaculartitle"]=> string(0) "" } [32366949]=> array(43) { ["uid"]=> string(8) "32366949" ["pubdate"]=> string(8) "2021 Sep" ["epubdate"]=> string(10) "2020 May 4" ["source"]=> string(14) "Mol Psychiatry" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(9) "Lesiak AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Coffey K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Cohen JH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Liang KJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(86) "Sequencing the serotonergic neuron translatome reveals a new role for Fkbp5 in stress." ["sorttitle"]=> string(85) "sequencing the serotonergic neuron translatome reveals a new role for fkbp5 in stress" ["volume"]=> string(2) "26" ["issue"]=> string(1) "9" ["pages"]=> string(9) "4742-4753" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9607835" ["issn"]=> string(9) "1359-4184" ["essn"]=> string(9) "1476-5578" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "32366949" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1586302" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7609479" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC7609479;manuscript-id: NIHMS1586302;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41380-020-0750-4" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s41380-020-0750-4" } } ["history"]=> array(7) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/10/11 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/04/20 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2020/04/03 00:00" } [3]=> array(2) { ["pubstatus"]=> string(11) "pmc-release" ["date"]=> string(16) "2021/11/04 00:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/05/06 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/02/01 06:00" } [6]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/05/06 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(49) ["fulljournalname"]=> string(20) "Molecular psychiatry" ["elocationid"]=> string(30) "doi: 10.1038/s41380-020-0750-4" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/09/01 00:00" ["sortfirstauthor"]=> string(9) "Lesiak AJ" ["vernaculartitle"]=> string(0) "" } [31994279]=> array(43) { ["uid"]=> string(8) "31994279" ["pubdate"]=> string(8) "2021 Jan" ["epubdate"]=> string(11) "2020 Jan 29" ["source"]=> string(11) "Addict Biol" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(7) "Nair SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Smirnov DS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Estabrook MM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Chisholm AD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "Silva PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(122) "Effect of chemogenetic inhibition of lateral habenula neuronal activity on cocaine- and food-seeking behaviors in the rat." ["sorttitle"]=> string(120) "effect of chemogenetic inhibition of lateral habenula neuronal activity on cocaine and food seeking behaviors in the rat" ["volume"]=> string(2) "26" ["issue"]=> string(1) "1" ["pages"]=> string(6) "e12865" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9604935" ["issn"]=> string(9) "1355-6215" ["essn"]=> string(9) "1369-1600" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "31994279" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1111/adb.12865" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/09/19 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2019/11/07 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2019/12/01 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/01/30 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/10/06 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/01/30 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(17) "Addiction biology" ["elocationid"]=> string(22) "doi: 10.1111/adb.12865" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/01/01 00:00" ["sortfirstauthor"]=> string(7) "Nair SG" ["vernaculartitle"]=> string(0) "" } [31958800]=> array(43) { ["uid"]=> string(8) "31958800" ["pubdate"]=> string(8) "2020 Jun" ["epubdate"]=> string(11) "2020 Jan 20" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(9) "Coffey KR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Marx RE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(5) "Vo EK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Nair SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(148) "Chemogenetic inhibition of lateral habenula projections to the dorsal raphe nucleus reduces passive coping and perseverative reward seeking in rats." ["sorttitle"]=> string(147) "chemogenetic inhibition of lateral habenula projections to the dorsal raphe nucleus reduces passive coping and perseverative reward seeking in rats" ["volume"]=> string(2) "45" ["issue"]=> string(1) "7" ["pages"]=> string(9) "1115-1124" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "31958800" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7235029" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7235029;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41386-020-0616-0" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s41386-020-0616-0" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/10/28 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/01/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2020/01/07 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/01/21 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/02/07 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/01/21 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(55) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(30) "doi: 10.1038/s41386-020-0616-0" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/06/01 00:00" ["sortfirstauthor"]=> string(9) "Coffey KR" ["vernaculartitle"]=> string(0) "" } [31502538]=> array(43) { ["uid"]=> string(8) "31502538" ["pubdate"]=> string(11) "2019 Sep 10" ["epubdate"]=> string(11) "2019 Sep 10" ["source"]=> string(5) "Elife" ["authors"]=> array(11) { [0]=> array(3) { ["name"]=> string(8) "Campus P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Covelo IR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(5) "Kim Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Parsegian A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(7) "Kuhn BN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Lopez SA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(16) "Solberg Woods LC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(8) "Sarter M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(9) "Flagel SB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Flagel SB" ["title"]=> string(106) "The paraventricular thalamus is a critical mediator of top-down control of cue-motivated behavior in rats." ["sorttitle"]=> string(101) "paraventricular thalamus is a critical mediator of top down control of cue motivated behavior in rats" ["volume"]=> string(1) "8" ["issue"]=> string(0) "" ["pages"]=> string(0) "" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101579614" ["issn"]=> string(0) "" ["essn"]=> string(9) "2050-084X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "3" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "31502538" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6739869" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6739869;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(19) "10.7554/eLife.49041" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(5) "49041" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/06/04 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2019/08/15 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/09/11 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/09/11 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/02/20 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(72) ["fulljournalname"]=> string(5) "eLife" ["elocationid"]=> string(24) "doi: 10.7554/eLife.49041" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2019/09/10 00:00" ["sortfirstauthor"]=> string(8) "Campus P" ["vernaculartitle"]=> string(0) "" } [31003231]=> array(43) { ["uid"]=> string(8) "31003231" ["pubdate"]=> string(8) "2019 Sep" ["epubdate"]=> string(11) "2019 Apr 19" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(12) "Anastasio NC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Stutz SJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Price AE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(14) "Davis-Reyes BD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Sholler DJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Moeller FG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Hommel JD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(13) "Cunningham KA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(13) "Cunningham KA" ["title"]=> string(116) "Convergent neural connectivity in motor impulsivity and high-fat food binge-like eating in male Sprague-Dawley rats." ["sorttitle"]=> string(115) "convergent neural connectivity in motor impulsivity and high fat food binge like eating in male sprague dawley rats" ["volume"]=> string(2) "44" ["issue"]=> string(2) "10" ["pages"]=> string(9) "1752-1761" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "31003231" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6785029" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6785029;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41386-019-0394-8" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s41386-019-0394-8" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/01/20 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2019/04/13 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2019/04/05 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/04/20 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/03/17 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/04/20 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(80) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(30) "doi: 10.1038/s41386-019-0394-8" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2019/09/01 00:00" ["sortfirstauthor"]=> string(12) "Anastasio NC" ["vernaculartitle"]=> string(0) "" } [30946562]=> array(43) { ["uid"]=> string(8) "30946562" ["pubdate"]=> string(11) "2019 Jul 17" ["epubdate"]=> string(11) "2019 Apr 29" ["source"]=> string(17) "ACS Chem Neurosci" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(5) "Liu Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Gibson AW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(13) "Levinstein MR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Lesiak AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Ong SE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(96) "5-HT(1B) Receptor-Mediated Activation of ERK1/2 Requires Both Gα(i/o) and β-Arrestin Proteins." ["sorttitle"]=> string(88) "5 ht 1b receptor mediated activation of erk1 2 requires both g i o and arrestin proteins" ["volume"]=> string(2) "10" ["issue"]=> string(1) "7" ["pages"]=> string(9) "3143-3153" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101525337" ["issn"]=> string(0) "" ["essn"]=> string(9) "1948-7193" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "30946562" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1025299" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7217031" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC7217031;manuscript-id: NIHMS1025299;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1021/acschemneuro.8b00596" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/04/05 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/06/12 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/04/05 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(62) ["fulljournalname"]=> string(25) "ACS chemical neuroscience" ["elocationid"]=> string(33) "doi: 10.1021/acschemneuro.8b00596" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2019/07/17 00:00" ["sortfirstauthor"]=> string(5) "Liu Y" ["vernaculartitle"]=> string(0) "" } [30610191]=> array(43) { ["uid"]=> string(8) "30610191" ["pubdate"]=> string(8) "2019 Apr" ["epubdate"]=> string(10) "2019 Jan 4" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(9) "Coffey KR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Marx RG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(96) "DeepSqueak: a deep learning-based system for detection and analysis of ultrasonic vocalizations." ["sorttitle"]=> string(94) "deepsqueak a deep learning based system for detection and analysis of ultrasonic vocalizations" ["volume"]=> string(2) "44" ["issue"]=> string(1) "5" ["pages"]=> string(7) "859-868" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "30610191" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6461910" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6461910;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41386-018-0303-6" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s41386-018-0303-6" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2018/08/22 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2018/12/16 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2018/12/04 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/01/06 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/12/19 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/01/06 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(34) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(30) "doi: 10.1038/s41386-018-0303-6" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2019/04/01 00:00" ["sortfirstauthor"]=> string(9) "Coffey KR" ["vernaculartitle"]=> string(0) "" } [30083593]=> array(43) { ["uid"]=> string(8) "30083593" ["pubdate"]=> string(4) "2018" ["epubdate"]=> string(10) "2018 Aug 2" ["source"]=> string(18) "NPJ Parkinsons Dis" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(9) "Melief EJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McKinley JW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Lam JY" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Whiteley NM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Gibson AW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Henschen CW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Palmiter RD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(10) "Bamford NS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(8) "Darvas M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(8) "Darvas M" ["title"]=> string(133) "Loss of glutamate signaling from the thalamus to dorsal striatum impairs motor function and slows the execution of learned behaviors." ["sorttitle"]=> string(132) "loss of glutamate signaling from the thalamus to dorsal striatum impairs motor function and slows the execution of learned behaviors" ["volume"]=> string(1) "4" ["issue"]=> string(0) "" ["pages"]=> string(2) "23" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101675390" ["issn"]=> string(9) "2373-8057" ["essn"]=> string(9) "2373-8057" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(6) "PubMed" ["pubstatus"]=> string(3) "258" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "30083593" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6072777" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6072777;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41531-018-0060-6" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(2) "60" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2017/01/25 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2018/06/19 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2018/06/27 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/08/08 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/08/08 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2018/08/08 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(49) ["fulljournalname"]=> string(23) "NPJ Parkinson's disease" ["elocationid"]=> string(30) "doi: 10.1038/s41531-018-0060-6" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2018/08/02 00:00" ["sortfirstauthor"]=> string(9) "Melief EJ" ["vernaculartitle"]=> string(0) "" } [29955167]=> array(43) { ["uid"]=> string(8) "29955167" ["pubdate"]=> string(8) "2020 Sep" ["epubdate"]=> string(11) "2018 Jun 28" ["source"]=> string(14) "Mol Psychiatry" ["authors"]=> array(18) { [0]=> array(3) { ["name"]=> string(13) "Michaelides M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Miller ML" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Egervari G" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Primeaux SD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "Gomez JL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Ellis RJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Landry JA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Szutorisz H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(10) "Hoffman AF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Lupica CR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(8) "Loos RJF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(9) "Thanos PK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [12]=> array(3) { ["name"]=> string(7) "Bray GA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [13]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [14]=> array(3) { ["name"]=> string(11) "Zachariou V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [15]=> array(3) { ["name"]=> string(7) "Wang GJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [16]=> array(3) { ["name"]=> string(9) "Volkow ND" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [17]=> array(3) { ["name"]=> string(7) "Hurd YL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(7) "Hurd YL" ["title"]=> string(75) "Striatal Rgs4 regulates feeding and susceptibility to diet-induced obesity." ["sorttitle"]=> string(74) "striatal rgs4 regulates feeding and susceptibility to diet induced obesity" ["volume"]=> string(2) "25" ["issue"]=> string(1) "9" ["pages"]=> string(9) "2058-2069" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9607835" ["issn"]=> string(9) "1359-4184" ["essn"]=> string(9) "1476-5578" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "29955167" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS967909" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6310669" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC6310669;manuscript-id: NIHMS967909;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41380-018-0120-7" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s41380-018-0120-7" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2015/12/11 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2018/05/14 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2018/05/10 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/06/30 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/05/15 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/06/30 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(59) ["fulljournalname"]=> string(20) "Molecular psychiatry" ["elocationid"]=> string(30) "doi: 10.1038/s41380-018-0120-7" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/09/01 00:00" ["sortfirstauthor"]=> string(13) "Michaelides M" ["vernaculartitle"]=> string(0) "" } [29678909]=> array(43) { ["uid"]=> string(8) "29678909" ["pubdate"]=> string(8) "2018 Jul" ["epubdate"]=> string(11) "2018 Apr 20" ["source"]=> string(13) "Mol Pharmacol" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(9) "Lesiak AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Brodsky M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Cohenca N" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Croicu AG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(149) "Restoration of Physiological Expression of 5-HT(6) Receptor into the Primary Cilia of Null Mutant Neurons Lengthens Both Primary Cilia and Dendrites." ["sorttitle"]=> string(147) "restoration of physiological expression of 5 ht 6 receptor into the primary cilia of null mutant neurons lengthens both primary cilia and dendrites" ["volume"]=> string(2) "94" ["issue"]=> string(1) "1" ["pages"]=> string(7) "731-742" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0035623" ["issn"]=> string(9) "0026-895X" ["essn"]=> string(9) "1521-0111" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "29678909" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5987994" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC5987994;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(22) "10.1124/mol.117.111583" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(14) "mol.117.111583" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2018/01/02 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2018/04/13 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/04/22 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/02/23 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/04/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(60) ["fulljournalname"]=> string(22) "Molecular pharmacology" ["elocationid"]=> string(27) "doi: 10.1124/mol.117.111583" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2018/07/01 00:00" ["sortfirstauthor"]=> string(9) "Lesiak AJ" ["vernaculartitle"]=> string(0) "" } [28748785]=> array(43) { ["uid"]=> string(8) "28748785" ["pubdate"]=> string(11) "2017 Aug 15" ["epubdate"]=> string(0) "" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(13) "Levinstein MR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(43) "Striatal 5-HT(1B) Receptors and Aggression." ["sorttitle"]=> string(41) "striatal 5 ht 1b receptors and aggression" ["volume"]=> string(2) "82" ["issue"]=> string(1) "4" ["pages"]=> string(7) "235-236" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(9) "1873-2402" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(7) "Comment" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "28748785" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.biopsych.2017.06.001" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-3223(17)31631-1" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2017/05/30 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2017/06/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2017/07/28 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2017/07/28 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2018/04/03 06:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(42) "Biol Psychiatry. 2017 Aug 15;82(4):267-274" ["reftype"]=> string(10) "Comment on" ["pmid"]=> int(27108021) ["note"]=> string(0) "" } } ["attributes"]=> array(0) { } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(35) "doi: 10.1016/j.biopsych.2017.06.001" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2017/08/15 00:00" ["sortfirstauthor"]=> string(13) "Levinstein MR" ["vernaculartitle"]=> string(0) "" } [28664636]=> array(43) { ["uid"]=> string(8) "28664636" ["pubdate"]=> string(8) "2017 Aug" ["epubdate"]=> string(11) "2017 Jul 26" ["source"]=> string(14) "Eur J Neurosci" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(9) "Wunsch AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Yager LM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Donckels EA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(5) "Le CT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Ferguson SM" ["title"]=> string(122) "Chemogenetic inhibition reveals midline thalamic nuclei and thalamo-accumbens projections mediate cocaine-seeking in rats." ["sorttitle"]=> string(121) "chemogenetic inhibition reveals midline thalamic nuclei and thalamo accumbens projections mediate cocaine seeking in rats" ["volume"]=> string(2) "46" ["issue"]=> string(1) "3" ["pages"]=> string(9) "1850-1862" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8918110" ["issn"]=> string(9) "0953-816X" ["essn"]=> string(9) "1460-9568" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "28664636" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS889238" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5546988" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC5546988;manuscript-id: NIHMS889238;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1111/ejn.13631" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2017/03/22 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2017/06/23 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2017/06/23 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2017/07/01 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2018/09/19 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2017/07/01 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(89) ["fulljournalname"]=> string(36) "The European journal of neuroscience" ["elocationid"]=> string(22) "doi: 10.1111/ejn.13631" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2017/08/01 00:00" ["sortfirstauthor"]=> string(9) "Wunsch AM" ["vernaculartitle"]=> string(0) "" } [28237815]=> array(43) { ["uid"]=> string(8) "28237815" ["pubdate"]=> string(10) "2017 May 4" ["epubdate"]=> string(11) "2017 Feb 22" ["source"]=> string(12) "Neuroscience" ["authors"]=> array(12) { [0]=> array(3) { ["name"]=> string(6) "Tai TY" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Warner LN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Jones TD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Jung S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(13) "Concepcion FA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Skyrud DW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(8) "Fender J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(5) "Liu Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Williams AD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(12) "D'Ambrosio R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(9) "Poolos NP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Poolos NP" ["title"]=> string(110) "Antiepileptic action of c-Jun N-terminal kinase (JNK) inhibition in an animal model of temporal lobe epilepsy." ["sorttitle"]=> string(107) "antiepileptic action of c jun n terminal kinase jnk inhibition in an animal model of temporal lobe epilepsy" ["volume"]=> string(3) "349" ["issue"]=> string(0) "" ["pages"]=> string(5) "35-47" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7605074" ["issn"]=> string(9) "0306-4522" ["essn"]=> string(9) "1873-7544" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "28237815" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS854536" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5386321" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC5386321;manuscript-id: NIHMS854536;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1016/j.neuroscience.2017.02.024" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0306-4522(17)30107-0" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2015/10/29 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2017/02/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2017/02/13 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2017/02/27 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2018/01/18 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2017/02/27 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(57) ["fulljournalname"]=> string(12) "Neuroscience" ["elocationid"]=> string(39) "doi: 10.1016/j.neuroscience.2017.02.024" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2017/05/04 00:00" ["sortfirstauthor"]=> string(6) "Tai TY" ["vernaculartitle"]=> string(0) "" } [28087224]=> array(43) { ["uid"]=> string(8) "28087224" ["pubdate"]=> string(10) "2017 Apr 1" ["epubdate"]=> string(11) "2017 Jan 10" ["source"]=> string(9) "Brain Res" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(9) "Brodsky M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Lesiak AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Croicu A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Cohenca N" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Sullivan JM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(81) "5-HT(6) receptor blockade regulates primary cilia morphology in striatal neurons." ["sorttitle"]=> string(79) "5 ht 6 receptor blockade regulates primary cilia morphology in striatal neurons" ["volume"]=> string(4) "1660" ["issue"]=> string(0) "" ["pages"]=> string(5) "10-19" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0045503" ["issn"]=> string(9) "0006-8993" ["essn"]=> string(9) "1872-6240" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "28087224" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS851079" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5392252" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC5392252;manuscript-id: NIHMS851079;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.brainres.2017.01.010" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-8993(17)30012-4" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2016/09/19 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2017/01/06 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2017/01/09 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2017/01/15 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2017/05/26 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2017/01/15 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(72) ["fulljournalname"]=> string(14) "Brain research" ["elocationid"]=> string(35) "doi: 10.1016/j.brainres.2017.01.010" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2017/04/01 00:00" ["sortfirstauthor"]=> string(9) "Brodsky M" ["vernaculartitle"]=> string(0) "" } [27032690]=> array(43) { ["uid"]=> string(8) "27032690" ["pubdate"]=> string(8) "2016 Aug" ["epubdate"]=> string(10) "2016 Apr 1" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(9) "Brodsky M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Gibson AW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Smirnov D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Nair SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(86) "Striatal 5-HT6 Receptors Regulate Cocaine Reinforcement in a Pathway-Selective Manner." ["sorttitle"]=> string(85) "striatal 5 ht6 receptors regulate cocaine reinforcement in a pathway selective manner" ["volume"]=> string(2) "41" ["issue"]=> string(1) "9" ["pages"]=> string(7) "2377-87" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "27032690" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4946068" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC4946068;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(19) "10.1038/npp.2016.45" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(9) "npp201645" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2015/09/22 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2016/03/23 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2016/03/25 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2016/04/02 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2016/04/02 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2018/01/10 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(51) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(24) "doi: 10.1038/npp.2016.45" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2016/08/01 00:00" ["sortfirstauthor"]=> string(9) "Brodsky M" ["vernaculartitle"]=> string(0) "" } [26657954]=> array(43) { ["uid"]=> string(8) "26657954" ["pubdate"]=> string(8) "2016 Jan" ["epubdate"]=> string(0) "" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(9) "Lesiak AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(33) "RiboTag: Not Lost in Translation." ["sorttitle"]=> string(31) "ribotag not lost in translation" ["volume"]=> string(2) "41" ["issue"]=> string(1) "1" ["pages"]=> string(5) "374-6" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "26657954" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4677145" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC4677145;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(20) "10.1038/npp.2015.262" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "npp2015262" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2015/12/15 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2015/12/15 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2016/09/23 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(0) { } ["pmcrefcount"]=> int(5) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(25) "doi: 10.1038/npp.2015.262" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2016/01/01 00:00" ["sortfirstauthor"]=> string(9) "Lesiak AJ" ["vernaculartitle"]=> string(0) "" } [26289144]=> array(43) { ["uid"]=> string(8) "26289144" ["pubdate"]=> string(8) "2016 Mar" ["epubdate"]=> string(11) "2015 Aug 20" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(13) "Kerstetter KA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Wunsch AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Nakata KG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Donckels E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Ferguson SM" ["title"]=> string(103) "Corticostriatal Afferents Modulate Responsiveness to Psychostimulant Drugs and Drug-Associated Stimuli." ["sorttitle"]=> string(102) "corticostriatal afferents modulate responsiveness to psychostimulant drugs and drug associated stimuli" ["volume"]=> string(2) "41" ["issue"]=> string(1) "4" ["pages"]=> string(7) "1128-37" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "26289144" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4748437" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC4748437;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(20) "10.1038/npp.2015.253" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "npp2015253" } } ["history"]=> array(7) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2014/10/28 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2015/08/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2015/08/13 00:00" } [3]=> array(2) { ["pubstatus"]=> string(11) "pmc-release" ["date"]=> string(16) "2017/03/01 00:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2015/08/21 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2015/08/21 06:00" } [6]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2016/11/09 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(45) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(25) "doi: 10.1038/npp.2015.253" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2016/03/01 00:00" ["sortfirstauthor"]=> string(13) "Kerstetter KA" ["vernaculartitle"]=> string(0) "" } [25934037]=> array(43) { ["uid"]=> string(8) "25934037" ["pubdate"]=> string(11) "2015 Jul 23" ["epubdate"]=> string(11) "2015 Apr 28" ["source"]=> string(12) "Neuroscience" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(10) "Eskenazi D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Brodsky M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(67) "Deconstructing 5-HT6 receptor effects on striatal circuit function." ["sorttitle"]=> string(66) "deconstructing 5 ht6 receptor effects on striatal circuit function" ["volume"]=> string(3) "299" ["issue"]=> string(0) "" ["pages"]=> string(6) "97-106" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7605074" ["issn"]=> string(9) "0306-4522" ["essn"]=> string(9) "1873-7544" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "25934037" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS691139" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4457577" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4457577;manuscript-id: NIHMS691139;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1016/j.neuroscience.2015.04.046" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0306-4522(15)00387-5" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2015/03/30 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2015/04/21 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2015/05/03 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2015/05/03 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2016/03/02 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(50) ["fulljournalname"]=> string(12) "Neuroscience" ["elocationid"]=> string(39) "doi: 10.1016/j.neuroscience.2015.04.046" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2015/07/23 00:00" ["sortfirstauthor"]=> string(10) "Eskenazi D" ["vernaculartitle"]=> string(0) "" } [25907441]=> array(43) { ["uid"]=> string(8) "25907441" ["pubdate"]=> string(10) "2015 Jul 9" ["epubdate"]=> string(11) "2015 Apr 20" ["source"]=> string(12) "Neuroscience" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(5) "Liu Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Kelly MA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(109) "5-HT1B autoreceptors differentially modulate the expression of conditioned fear in a circuit-specific manner." ["sorttitle"]=> string(108) "5 ht1b autoreceptors differentially modulate the expression of conditioned fear in a circuit specific manner" ["volume"]=> string(3) "298" ["issue"]=> string(0) "" ["pages"]=> string(6) "436-47" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7605074" ["issn"]=> string(9) "0306-4522" ["essn"]=> string(9) "1873-7544" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "25907441" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS683337" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4450084" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4450084;manuscript-id: NIHMS683337;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1016/j.neuroscience.2015.04.032" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0306-4522(15)00373-5" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2015/03/04 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2015/04/08 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2015/04/13 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2015/04/25 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2015/04/25 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2016/03/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(103) ["fulljournalname"]=> string(12) "Neuroscience" ["elocationid"]=> string(39) "doi: 10.1016/j.neuroscience.2015.04.032" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2015/07/09 00:00" ["sortfirstauthor"]=> string(5) "Liu Y" ["vernaculartitle"]=> string(0) "" } [27331085]=> array(43) { ["uid"]=> string(8) "27331085" ["pubdate"]=> string(8) "2015 Apr" ["epubdate"]=> string(11) "2014 Sep 22" ["source"]=> string(19) "Curr Opin Behav Sci" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(49) "Using DREADDs to investigate addiction behaviors." ["sorttitle"]=> string(48) "using dreadds to investigate addiction behaviors" ["volume"]=> string(1) "2" ["issue"]=> string(0) "" ["pages"]=> string(5) "69-72" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101644944" ["issn"]=> string(9) "2352-1546" ["essn"]=> string(9) "2352-1554" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(6) "PubMed" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "27331085" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS767353" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4912135" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4912135;manuscript-id: NIHMS767353;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1016/j.cobeha.2014.09.004" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2016/06/23 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2015/04/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2015/04/01 00:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(18) ["fulljournalname"]=> string(38) "Current opinion in behavioral sciences" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2015/04/01 00:00" ["sortfirstauthor"]=> string(11) "Ferguson SM" ["vernaculartitle"]=> string(0) "" } [25019563]=> array(43) { ["uid"]=> string(8) "25019563" ["pubdate"]=> string(8) "2014 Sep" ["epubdate"]=> string(11) "2014 Jul 14" ["source"]=> string(31) "J Child Adolesc Psychopharmacol" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(8) "Haack SA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(13) "Borghesani PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Green AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(7) "Shyn SI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(7) "Shyn SI" ["title"]=> string(148) "Electroconvulsive therapy for catatonia in an 18-year-old patient presenting with mixed features of schizophrenia and obsessive-compulsive disorder." ["sorttitle"]=> string(147) "electroconvulsive therapy for catatonia in an 18 year old patient presenting with mixed features of schizophrenia and obsessive compulsive disorder" ["volume"]=> string(2) "24" ["issue"]=> string(1) "7" ["pages"]=> string(5) "411-3" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9105358" ["issn"]=> string(9) "1044-5463" ["essn"]=> string(9) "1557-8992" ["pubtype"]=> array(1) { [0]=> string(6) "Letter" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "25019563" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(21) "10.1089/cap.2014.0027" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2014/07/15 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2014/07/16 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2015/05/29 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(0) { } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(50) "Journal of child and adolescent psychopharmacology" ["elocationid"]=> string(26) "doi: 10.1089/cap.2014.0027" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2014/09/01 00:00" ["sortfirstauthor"]=> string(8) "Haack SA" ["vernaculartitle"]=> string(0) "" } [26054767]=> array(43) { ["uid"]=> string(8) "26054767" ["pubdate"]=> string(8) "2015 Jun" ["epubdate"]=> string(10) "2015 Jun 1" ["source"]=> string(13) "Biotechniques" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(9) "Lesiak AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Brodsky M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(114) "RiboTag is a flexible tool for measuring the translational state of targeted cells in heterogeneous cell cultures." ["sorttitle"]=> string(113) "ribotag is a flexible tool for measuring the translational state of targeted cells in heterogeneous cell cultures" ["volume"]=> string(2) "58" ["issue"]=> string(1) "6" ["pages"]=> string(6) "308-17" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8306785" ["issn"]=> string(9) "0736-6205" ["essn"]=> string(9) "1940-9818" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "258" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "26054767" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS696260" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4467021" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4467021;manuscript-id: NIHMS696260;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.2144/000114299" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(9) "000114299" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2015/03/14 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2015/05/13 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2015/06/10 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2014/01/01 00:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2016/03/05 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(37) ["fulljournalname"]=> string(13) "BioTechniques" ["elocationid"]=> string(22) "doi: 10.2144/000114299" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2015/06/01 00:00" ["sortfirstauthor"]=> string(9) "Lesiak AJ" ["vernaculartitle"]=> string(0) "" } [24231358]=> array(43) { ["uid"]=> string(8) "24231358" ["pubdate"]=> string(8) "2013 Dec" ["epubdate"]=> string(11) "2013 Nov 15" ["source"]=> string(13) "J Clin Invest" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(13) "Michaelides M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Anderson SA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Ananth M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Smirnov D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Thanos PK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(7) "Wang GJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Volkow ND" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(7) "Hurd YL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(7) "Hurd YL" ["title"]=> string(103) "Whole-brain circuit dissection in free-moving animals reveals cell-specific mesocorticolimbic networks." ["sorttitle"]=> string(102) "whole brain circuit dissection in free moving animals reveals cell specific mesocorticolimbic networks" ["volume"]=> string(3) "123" ["issue"]=> string(2) "12" ["pages"]=> string(7) "5342-50" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7802877" ["issn"]=> string(9) "0021-9738" ["essn"]=> string(9) "1558-8238" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "24231358" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3859392" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3859392;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(16) "10.1172/JCI72117" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(5) "72117" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2013/07/15 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2013/09/12 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2013/11/16 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2013/11/16 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2014/02/05 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(30) ["fulljournalname"]=> string(37) "The Journal of clinical investigation" ["elocationid"]=> string(21) "doi: 10.1172/JCI72117" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2013/12/01 00:00" ["sortfirstauthor"]=> string(13) "Michaelides M" ["vernaculartitle"]=> string(0) "" } [24231353]=> array(43) { ["uid"]=> string(8) "24231353" ["pubdate"]=> string(8) "2013 Dec" ["epubdate"]=> string(11) "2013 Nov 15" ["source"]=> string(13) "J Clin Invest" ["authors"]=> array(12) { [0]=> array(3) { ["name"]=> string(11) "Anderson SA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(13) "Michaelides M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Zarnegar P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(5) "Ren Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Fagergren P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Thanos PK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(7) "Wang GJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(8) "Bannon M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(8) "Keller E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(9) "Volkow ND" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(7) "Hurd YL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(7) "Hurd YL" ["title"]=> string(97) "Impaired periamygdaloid-cortex prodynorphin is characteristic of opiate addiction and depression." ["sorttitle"]=> string(96) "impaired periamygdaloid cortex prodynorphin is characteristic of opiate addiction and depression" ["volume"]=> string(3) "123" ["issue"]=> string(2) "12" ["pages"]=> string(7) "5334-41" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7802877" ["issn"]=> string(9) "0021-9738" ["essn"]=> string(9) "1558-8238" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "24231353" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3859405" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3859405;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(16) "10.1172/JCI70395" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(5) "70395" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2013/04/11 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2013/09/12 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2013/11/16 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2013/11/16 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2014/02/05 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(56) ["fulljournalname"]=> string(37) "The Journal of clinical investigation" ["elocationid"]=> string(21) "doi: 10.1172/JCI70395" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2013/12/01 00:00" ["sortfirstauthor"]=> string(11) "Anderson SA" ["vernaculartitle"]=> string(0) "" } [24075973]=> array(43) { ["uid"]=> string(8) "24075973" ["pubdate"]=> string(8) "2013 Nov" ["epubdate"]=> string(11) "2013 Sep 25" ["source"]=> string(23) "Pharmacol Biochem Behav" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(7) "Nair SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Furay AR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(5) "Liu Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(160) "Differential effect of viral overexpression of nucleus accumbens shell 5-HT1B receptors on stress- and cocaine priming-induced reinstatement of cocaine seeking." ["sorttitle"]=> string(158) "differential effect of viral overexpression of nucleus accumbens shell 5 ht1b receptors on stress and cocaine priming induced reinstatement of cocaine seeking" ["volume"]=> string(3) "112" ["issue"]=> string(0) "" ["pages"]=> string(5) "89-95" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0367050" ["issn"]=> string(9) "0091-3057" ["essn"]=> string(9) "1873-5177" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "24075973" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS527846" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3857090" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3857090;manuscript-id: NIHMS527846;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.pbb.2013.09.009" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0091-3057(13)00225-6" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2013/06/03 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2013/09/03 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2013/09/17 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2013/10/01 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2013/10/01 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2014/07/17 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(40) ["fulljournalname"]=> string(40) "Pharmacology, biochemistry, and behavior" ["elocationid"]=> string(30) "doi: 10.1016/j.pbb.2013.09.009" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2013/11/01 00:00" ["sortfirstauthor"]=> string(7) "Nair SG" ["vernaculartitle"]=> string(0) "" } [23843534]=> array(43) { ["uid"]=> string(8) "23843534" ["pubdate"]=> string(11) "2013 Jul 10" ["epubdate"]=> string(0) "" ["source"]=> string(10) "J Neurosci" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Phillips PE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "Roth BL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Wess J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(85) "Direct-pathway striatal neurons regulate the retention of decision-making strategies." ["sorttitle"]=> string(84) "direct pathway striatal neurons regulate the retention of decision making strategies" ["volume"]=> string(2) "33" ["issue"]=> string(2) "28" ["pages"]=> string(8) "11668-76" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8102140" ["issn"]=> string(9) "0270-6474" ["essn"]=> string(9) "1529-2401" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "23843534" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3724555" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3724555;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1523/JNEUROSCI.4783-12.2013" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(11) "33/28/11668" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2013/07/12 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2013/07/12 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/09/21 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(37) ["fulljournalname"]=> string(82) "The Journal of neuroscience : the official journal of the Society for Neuroscience" ["elocationid"]=> string(35) "doi: 10.1523/JNEUROSCI.4783-12.2013" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2013/07/10 00:00" ["sortfirstauthor"]=> string(11) "Ferguson SM" ["vernaculartitle"]=> string(0) "" } [23223282]=> array(43) { ["uid"]=> string(8) "23223282" ["pubdate"]=> string(10) "2012 Dec 5" ["epubdate"]=> string(0) "" ["source"]=> string(10) "J Neurosci" ["authors"]=> array(11) { [0]=> array(3) { ["name"]=> string(12) "Schindler AG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Messinger DI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Smith JS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Shankar H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Gustin RM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(13) "Schattauer SS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(8) "Lemos JC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Chavkin NW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(8) "Hagan CE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Chavkin C" ["title"]=> string(155) "Stress produces aversion and potentiates cocaine reward by releasing endogenous dynorphins in the ventral striatum to locally stimulate serotonin reuptake." ["sorttitle"]=> string(154) "stress produces aversion and potentiates cocaine reward by releasing endogenous dynorphins in the ventral striatum to locally stimulate serotonin reuptake" ["volume"]=> string(2) "32" ["issue"]=> string(2) "49" ["pages"]=> string(8) "17582-96" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8102140" ["issn"]=> string(9) "0270-6474" ["essn"]=> string(9) "1529-2401" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(8) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "23223282" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS427293" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3523715" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3523715;manuscript-id: NIHMS427293;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1523/JNEUROSCI.3220-12.2012" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(11) "32/49/17582" } [6]=> array(3) { ["idtype"]=> string(7) "version" ["idtypen"]=> int(8) ["value"]=> string(1) "2" } [7]=> array(3) { ["idtype"]=> string(10) "version-id" ["idtypen"]=> int(8) ["value"]=> string(1) "2" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/12/11 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/12/12 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/04/12 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(88) ["fulljournalname"]=> string(82) "The Journal of neuroscience : the official journal of the Society for Neuroscience" ["elocationid"]=> string(35) "doi: 10.1523/JNEUROSCI.3220-12.2012" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2012/12/05 00:00" ["sortfirstauthor"]=> string(12) "Schindler AG" ["vernaculartitle"]=> string(0) "" } [23085473]=> array(43) { ["uid"]=> string(8) "23085473" ["pubdate"]=> string(11) "2013 May 20" ["epubdate"]=> string(11) "2012 Oct 18" ["source"]=> string(9) "Brain Res" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(7) "Nair SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Strand NS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(109) "DREADDing the lateral habenula: a review of methodological approaches for studying lateral habenula function." ["sorttitle"]=> string(107) "dreadding the lateral habenula a review of methodological approaches for studying lateral habenula function" ["volume"]=> string(4) "1511" ["issue"]=> string(0) "" ["pages"]=> string(6) "93-101" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0045503" ["issn"]=> string(9) "0006-8993" ["essn"]=> string(9) "1872-6240" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "23085473" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS415822" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3565082" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3565082;manuscript-id: NIHMS415822;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.brainres.2012.10.011" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-8993(12)01638-1" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2012/08/15 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2012/10/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2012/10/04 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/10/23 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/10/23 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/12/16 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(67) ["fulljournalname"]=> string(14) "Brain research" ["elocationid"]=> string(35) "doi: 10.1016/j.brainres.2012.10.011" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2013/05/20 00:00" ["sortfirstauthor"]=> string(7) "Nair SG" ["vernaculartitle"]=> string(0) "" } [22961814]=> array(43) { ["uid"]=> string(8) "22961814" ["pubdate"]=> string(8) "2012 Dec" ["epubdate"]=> string(11) "2012 Sep 29" ["source"]=> string(7) "Synapse" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(8) "Hagan CE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(5) "Liu Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Furay AR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(83) "5-HT(1B) autoreceptor regulation of serotonin transporter activity in synaptosomes." ["sorttitle"]=> string(81) "5 ht 1b autoreceptor regulation of serotonin transporter activity in synaptosomes" ["volume"]=> string(2) "66" ["issue"]=> string(2) "12" ["pages"]=> string(7) "1024-34" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8806914" ["issn"]=> string(9) "0887-4476" ["essn"]=> string(9) "1098-2396" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "22961814" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS407440" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3472085" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3472085;manuscript-id: NIHMS407440;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1002/syn.21608" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2012/06/15 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2012/08/30 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/09/11 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/09/11 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/02/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(64) ["fulljournalname"]=> string(24) "Synapse (New York, N.Y.)" ["elocationid"]=> string(22) "doi: 10.1002/syn.21608" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2012/12/01 00:00" ["sortfirstauthor"]=> string(8) "Hagan CE" ["vernaculartitle"]=> string(0) "" } [22541946]=> array(43) { ["uid"]=> string(8) "22541946" ["pubdate"]=> string(10) "2012 Sep 1" ["epubdate"]=> string(11) "2012 Apr 27" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(13) "Pentkowski NS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Cheung TH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Toy WA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Adams MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(14) "Neisewander JL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(14) "Neisewander JL" ["title"]=> string(139) "Protracted withdrawal from cocaine self-administration flips the switch on 5-HT(1B) receptor modulation of cocaine abuse-related behaviors." ["sorttitle"]=> string(137) "protracted withdrawal from cocaine self administration flips the switch on 5 ht 1b receptor modulation of cocaine abuse related behaviors" ["volume"]=> string(2) "72" ["issue"]=> string(1) "5" ["pages"]=> string(7) "396-404" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(9) "1873-2402" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "22541946" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS368293" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4071622" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4071622;manuscript-id: NIHMS368293;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.biopsych.2012.03.024" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-3223(12)00301-0" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2011/10/23 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2012/03/13 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2012/03/15 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/05/01 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/05/01 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/12/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(60) ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(35) "doi: 10.1016/j.biopsych.2012.03.024" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2012/09/01 00:00" ["sortfirstauthor"]=> string(13) "Pentkowski NS" ["vernaculartitle"]=> string(0) "" } [22157861]=> array(43) { ["uid"]=> string(8) "22157861" ["pubdate"]=> string(8) "2012 Jan" ["epubdate"]=> string(0) "" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(84) "Grateful DREADDs: engineered receptors reveal how neural circuits regulate behavior." ["sorttitle"]=> string(82) "grateful dreadds engineered receptors reveal how neural circuits regulate behavior" ["volume"]=> string(2) "37" ["issue"]=> string(1) "1" ["pages"]=> string(5) "296-7" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "22157861" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3238068" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3238068;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(20) "10.1038/npp.2011.179" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "npp2011179" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/12/14 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/12/14 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/08/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(0) { } ["pmcrefcount"]=> int(5) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(25) "doi: 10.1038/npp.2011.179" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2012/01/01 00:00" ["sortfirstauthor"]=> string(11) "Ferguson SM" ["vernaculartitle"]=> string(0) "" } [22018355]=> array(43) { ["uid"]=> string(8) "22018355" ["pubdate"]=> string(11) "2011 Nov 15" ["epubdate"]=> string(0) "" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(7) "Hiroi R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(50) "Complex roles of estrogen in emotion: sex matters." ["sorttitle"]=> string(48) "complex roles of estrogen in emotion sex matters" ["volume"]=> string(2) "70" ["issue"]=> string(2) "10" ["pages"]=> string(5) "908-9" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(9) "1873-2402" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "22018355" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.biopsych.2011.09.017" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-3223(11)00914-0" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2011/09/21 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2011/09/21 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/10/25 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/10/25 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/02/18 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(0) { } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(35) "doi: 10.1016/j.biopsych.2011.09.017" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/11/15 00:00" ["sortfirstauthor"]=> string(7) "Hiroi R" ["vernaculartitle"]=> string(0) "" } [21918519]=> array(43) { ["uid"]=> string(8) "21918519" ["pubdate"]=> string(8) "2011 Oct" ["epubdate"]=> string(0) "" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(8) "Furay AR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(36) "Opioid receptors: binding that ties." ["sorttitle"]=> string(34) "opioid receptors binding that ties" ["volume"]=> string(2) "36" ["issue"]=> string(2) "11" ["pages"]=> string(6) "2157-8" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(7) "Comment" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21918519" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3176578" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3176578;" } [3]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(20) "10.1038/npp.2011.147" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "npp2011147" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/09/16 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/09/16 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/03/21 06:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(48) "Neuropsychopharmacology. 2011 Oct;36(11):2200-10" ["reftype"]=> string(10) "Comment on" ["pmid"]=> int(21734650) ["note"]=> string(0) "" } } ["attributes"]=> array(0) { } ["pmcrefcount"]=> int(6) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(25) "doi: 10.1038/npp.2011.147" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/10/01 00:00" ["sortfirstauthor"]=> string(8) "Furay AR" ["vernaculartitle"]=> string(0) "" } [21893657]=> array(43) { ["uid"]=> string(8) "21893657" ["pubdate"]=> string(8) "2011 Sep" ["epubdate"]=> string(0) "" ["source"]=> string(19) "Arch Gen Psychiatry" ["authors"]=> array(13) { [0]=> array(3) { ["name"]=> string(11) "Murrough JW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Czermak C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "Henry S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Nabulsi N" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Gallezot JD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(13) "Gueorguieva R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(16) "Planeta-Wilson B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Krystal JH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(7) "Huang Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(7) "Ding YS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(9) "Carson RE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [12]=> array(3) { ["name"]=> string(12) "Neumeister A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(12) "Neumeister A" ["title"]=> string(127) "The effect of early trauma exposure on serotonin type 1B receptor expression revealed by reduced selective radioligand binding." ["sorttitle"]=> string(122) "effect of early trauma exposure on serotonin type 1b receptor expression revealed by reduced selective radioligand binding" ["volume"]=> string(2) "68" ["issue"]=> string(1) "9" ["pages"]=> string(7) "892-900" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0372435" ["issn"]=> string(9) "0003-990X" ["essn"]=> string(9) "1538-3636" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21893657" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS333323" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3244836" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3244836;manuscript-id: NIHMS333323;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(33) "10.1001/archgenpsychiatry.2011.91" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(8) "68/9/892" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/09/07 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/09/07 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/11/09 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(88) ["fulljournalname"]=> string(30) "Archives of general psychiatry" ["elocationid"]=> string(38) "doi: 10.1001/archgenpsychiatry.2011.91" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/09/01 00:00" ["sortfirstauthor"]=> string(11) "Murrough JW" ["vernaculartitle"]=> string(0) "" } [21835346]=> array(43) { ["uid"]=> string(8) "21835346" ["pubdate"]=> string(11) "2011 Aug 11" ["epubdate"]=> string(0) "" ["source"]=> string(6) "Neuron" ["authors"]=> array(12) { [0]=> array(3) { ["name"]=> string(10) "Bruchas MR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Schindler AG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Shankar H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(12) "Messinger DI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Miyatake M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Land BB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(8) "Lemos JC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(8) "Hagan CE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(10) "Quintana A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(11) "Palmiter RD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Chavkin C" ["title"]=> string(119) "Selective p38α MAPK deletion in serotonergic neurons produces stress resilience in models of depression and addiction." ["sorttitle"]=> string(116) "selective p38 mapk deletion in serotonergic neurons produces stress resilience in models of depression and addiction" ["volume"]=> string(2) "71" ["issue"]=> string(1) "3" ["pages"]=> string(7) "498-511" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8809320" ["issn"]=> string(9) "0896-6273" ["essn"]=> string(9) "1097-4199" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21835346" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS307551" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3155685" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3155685;manuscript-id: NIHMS307551;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1016/j.neuron.2011.06.011" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0896-6273(11)00515-0" } } ["history"]=> array(4) { [0]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2011/06/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/08/13 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/08/13 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/10/19 06:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(31) "Neuron. 2011 Aug 11;71(3):383-5" ["reftype"]=> string(10) "Comment in" ["pmid"]=> int(21835335) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(75) ["fulljournalname"]=> string(6) "Neuron" ["elocationid"]=> string(33) "doi: 10.1016/j.neuron.2011.06.011" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/08/11 00:00" ["sortfirstauthor"]=> string(10) "Bruchas MR" ["vernaculartitle"]=> string(0) "" } [21718722]=> array(43) { ["uid"]=> string(8) "21718722" ["pubdate"]=> string(11) "2011 Oct 31" ["epubdate"]=> string(11) "2011 Jun 21" ["source"]=> string(15) "Behav Brain Res" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(8) "Furay AR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Miczek KA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(51) "5-HT1B mRNA expression after chronic social stress." ["sorttitle"]=> string(50) "5 ht1b mrna expression after chronic social stress" ["volume"]=> string(3) "224" ["issue"]=> string(1) "2" ["pages"]=> string(5) "350-7" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8004872" ["issn"]=> string(9) "0166-4328" ["essn"]=> string(9) "1872-7549" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21718722" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS306993" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3660851" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3660851;manuscript-id: NIHMS306993;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.bbr.2011.06.016" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0166-4328(11)00478-5" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2011/02/22 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2011/06/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2011/06/14 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/07/02 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/07/02 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/12/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(64) ["fulljournalname"]=> string(26) "Behavioural brain research" ["elocationid"]=> string(30) "doi: 10.1016/j.bbr.2011.06.016" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/10/31 00:00" ["sortfirstauthor"]=> string(8) "Furay AR" ["vernaculartitle"]=> string(0) "" } [21714816]=> array(43) { ["uid"]=> string(8) "21714816" ["pubdate"]=> string(8) "2011 Jul" ["epubdate"]=> string(11) "2011 Jun 30" ["source"]=> string(14) "Eur J Neurosci" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(10) "Eskenazi D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(175) "Increased expression of 5-HT₆ receptors in dorsolateral striatum decreases habitual lever pressing, but does not affect learning acquisition of simple operant tasks in rats." ["sorttitle"]=> string(170) "increased expression of 5 ht receptors in dorsolateral striatum decreases habitual lever pressing but does not affect learning acquisition of simple operant tasks in rats" ["volume"]=> string(2) "34" ["issue"]=> string(1) "2" ["pages"]=> string(6) "343-51" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8918110" ["issn"]=> string(9) "0953-816X" ["essn"]=> string(9) "1460-9568" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21714816" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS295170" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3138869" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3138869;manuscript-id: NIHMS295170;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1111/j.1460-9568.2011.07756.x" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/07/01 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/07/01 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/01/06 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(54) ["fulljournalname"]=> string(36) "The European journal of neuroscience" ["elocationid"]=> string(37) "doi: 10.1111/j.1460-9568.2011.07756.x" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/07/01 00:00" ["sortfirstauthor"]=> string(10) "Eskenazi D" ["vernaculartitle"]=> string(0) "" } [21620956]=> array(43) { ["uid"]=> string(8) "21620956" ["pubdate"]=> string(8) "2011 Jul" ["epubdate"]=> string(10) "2011 May 8" ["source"]=> string(16) "J Chem Neuroanat" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(97) "Regulation of dorsal raphe nucleus function by serotonin autoreceptors: a behavioral perspective." ["sorttitle"]=> string(95) "regulation of dorsal raphe nucleus function by serotonin autoreceptors a behavioral perspective" ["volume"]=> string(2) "41" ["issue"]=> string(1) "4" ["pages"]=> string(6) "234-46" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8902615" ["issn"]=> string(9) "0891-0618" ["essn"]=> string(9) "1873-6300" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21620956" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS303131" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3137942" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3137942;manuscript-id: NIHMS303131;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.jchemneu.2011.05.001" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0891-0618(11)00037-8" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2011/03/04 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2011/04/22 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2011/05/02 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/05/31 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/05/31 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/02/23 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(226) ["fulljournalname"]=> string(32) "Journal of chemical neuroanatomy" ["elocationid"]=> string(35) "doi: 10.1016/j.jchemneu.2011.05.001" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/07/01 00:00" ["sortfirstauthor"]=> string(11) "McDevitt RA" ["vernaculartitle"]=> string(0) "" } [21437992]=> array(43) { ["uid"]=> string(8) "21437992" ["pubdate"]=> string(8) "2011 Oct" ["epubdate"]=> string(10) "2011 Apr 7" ["source"]=> string(7) "Synapse" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(8) "Hagan CE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Schenk JO" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(93) "The contribution of low-affinity transport mechanisms to serotonin clearance in synaptosomes." ["sorttitle"]=> string(88) "contribution of low affinity transport mechanisms to serotonin clearance in synaptosomes" ["volume"]=> string(2) "65" ["issue"]=> string(2) "10" ["pages"]=> string(7) "1015-23" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8806914" ["issn"]=> string(9) "0887-4476" ["essn"]=> string(9) "1098-2396" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21437992" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS285203" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3149756" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3149756;manuscript-id: NIHMS285203;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1002/syn.20929" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2011/01/12 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2011/03/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/03/26 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/03/26 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/05/31 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(40) ["fulljournalname"]=> string(24) "Synapse (New York, N.Y.)" ["elocationid"]=> string(22) "doi: 10.1002/syn.20929" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/10/01 00:00" ["sortfirstauthor"]=> string(8) "Hagan CE" ["vernaculartitle"]=> string(0) "" } [21353664]=> array(43) { ["uid"]=> string(8) "21353664" ["pubdate"]=> string(11) "2011 Apr 15" ["epubdate"]=> string(11) "2011 Feb 26" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Hiroi R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Mackenzie SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Robin NC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Cohn A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(6) "Kim JJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(129) "Serotonin 1B autoreceptors originating in the caudal dorsal raphe nucleus reduce expression of fear and depression-like behavior." ["sorttitle"]=> string(128) "serotonin 1b autoreceptors originating in the caudal dorsal raphe nucleus reduce expression of fear and depression like behavior" ["volume"]=> string(2) "69" ["issue"]=> string(1) "8" ["pages"]=> string(5) "780-7" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(9) "1873-2402" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21353664" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS262427" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3080128" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3080128;manuscript-id: NIHMS262427;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.biopsych.2010.12.029" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-3223(10)01361-2" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2010/08/06 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2010/12/15 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2010/12/15 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/03/01 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/03/01 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/08/09 06:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(40) "Biol Psychiatry. 2011 Apr 15;69(8):714-5" ["reftype"]=> string(10) "Comment in" ["pmid"]=> int(21447414) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(50) ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(35) "doi: 10.1016/j.biopsych.2010.12.029" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/04/15 00:00" ["sortfirstauthor"]=> string(11) "McDevitt RA" ["vernaculartitle"]=> string(0) "" } [21182901]=> array(43) { ["uid"]=> string(8) "21182901" ["pubdate"]=> string(11) "2011 Mar 10" ["epubdate"]=> string(11) "2010 Dec 20" ["source"]=> string(12) "Neuroscience" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(7) "Hiroi R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Morcos PA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Clark MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(132) "Overexpression or knockdown of rat tryptophan hyroxylase-2 has opposing effects on anxiety behavior in an estrogen-dependent manner." ["sorttitle"]=> string(131) "overexpression or knockdown of rat tryptophan hyroxylase 2 has opposing effects on anxiety behavior in an estrogen dependent manner" ["volume"]=> string(3) "176" ["issue"]=> string(0) "" ["pages"]=> string(6) "120-31" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7605074" ["issn"]=> string(9) "0306-4522" ["essn"]=> string(9) "1873-7544" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21182901" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS260858" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3038592" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3038592;manuscript-id: NIHMS260858;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1016/j.neuroscience.2010.12.019" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0306-4522(10)01597-6" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2010/07/12 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2010/11/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2010/12/14 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/12/25 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/12/25 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/06/02 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(64) ["fulljournalname"]=> string(12) "Neuroscience" ["elocationid"]=> string(39) "doi: 10.1016/j.neuroscience.2010.12.019" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/03/10 00:00" ["sortfirstauthor"]=> string(7) "Hiroi R" ["vernaculartitle"]=> string(0) "" } [21131952]=> array(43) { ["uid"]=> string(8) "21131952" ["pubdate"]=> string(8) "2011 Jan" ["epubdate"]=> string(10) "2010 Dec 5" ["source"]=> string(12) "Nat Neurosci" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Eskenazi D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Ishikawa M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Wanat MJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Phillips PE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(6) "Dong Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(7) "Roth BL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(102) "Transient neuronal inhibition reveals opposing roles of indirect and direct pathways in sensitization." ["sorttitle"]=> string(101) "transient neuronal inhibition reveals opposing roles of indirect and direct pathways in sensitization" ["volume"]=> string(2) "14" ["issue"]=> string(1) "1" ["pages"]=> string(4) "22-4" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9809671" ["issn"]=> string(9) "1097-6256" ["essn"]=> string(9) "1546-1726" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21131952" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS245934" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3058296" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3058296;manuscript-id: NIHMS245934;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(15) "10.1038/nn.2703" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "nn.2703" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2010/07/22 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2010/10/12 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/12/07 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/12/07 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/02/04 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(14) ["fulljournalname"]=> string(19) "Nature neuroscience" ["elocationid"]=> string(20) "doi: 10.1038/nn.2703" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/01/01 00:00" ["sortfirstauthor"]=> string(11) "Ferguson SM" ["vernaculartitle"]=> string(0) "" } [21088040]=> array(43) { ["uid"]=> string(8) "21088040" ["pubdate"]=> string(8) "2011 Jul" ["epubdate"]=> string(11) "2010 Nov 18" ["source"]=> string(17) "J Psychopharmacol" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(10) "Eskenazi D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(190) "Increased expression of the 5-HT6 receptor by viral mediated gene transfer into posterior but not anterior dorsomedial striatum interferes with acquisition of a discrete action-outcome task." ["sorttitle"]=> string(189) "increased expression of the 5 ht6 receptor by viral mediated gene transfer into posterior but not anterior dorsomedial striatum interferes with acquisition of a discrete action outcome task" ["volume"]=> string(2) "25" ["issue"]=> string(1) "7" ["pages"]=> string(6) "944-51" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8907828" ["issn"]=> string(9) "0269-8811" ["essn"]=> string(9) "1461-7285" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "21088040" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS752049" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4723119" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4723119;manuscript-id: NIHMS752049;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(24) "10.1177/0269881110388330" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(16) "0269881110388330" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/11/20 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/11/23 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/11/15 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(35) ["fulljournalname"]=> string(47) "Journal of psychopharmacology (Oxford, England)" ["elocationid"]=> string(29) "doi: 10.1177/0269881110388330" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/07/01 00:00" ["sortfirstauthor"]=> string(10) "Eskenazi D" ["vernaculartitle"]=> string(0) "" } [20843634]=> array(43) { ["uid"]=> string(8) "20843634" ["pubdate"]=> string(8) "2011 Feb" ["epubdate"]=> string(11) "2010 Sep 16" ["source"]=> string(7) "Alcohol" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(8) "Furay AR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Mullenix AT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Kaiyala KK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Sandygren NK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Hoplight BJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Hoplight BJ" ["title"]=> string(173) "Overexpression of 5-HT(1B) mRNA in nucleus accumbens shell projection neurons differentially affects microarchitecture of initiation and maintenance of ethanol consumption." ["sorttitle"]=> string(170) "overexpression of 5 ht 1b mrna in nucleus accumbens shell projection neurons differentially affects microarchitecture of initiation and maintenance of ethanol consumption" ["volume"]=> string(2) "45" ["issue"]=> string(1) "1" ["pages"]=> string(5) "19-32" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8502311" ["issn"]=> string(9) "0741-8329" ["essn"]=> string(9) "1873-6823" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "20843634" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS229623" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3003941" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3003941;manuscript-id: NIHMS229623;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.alcohol.2010.07.010" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0741-8329(10)00109-6" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2010/01/28 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2010/07/22 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2010/07/23 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/09/17 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/09/17 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/04/13 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(60) ["fulljournalname"]=> string(28) "Alcohol (Fayetteville, N.Y.)" ["elocationid"]=> string(34) "doi: 10.1016/j.alcohol.2010.07.010" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/02/01 00:00" ["sortfirstauthor"]=> string(8) "Furay AR" ["vernaculartitle"]=> string(0) "" } [20713085]=> array(43) { ["uid"]=> string(8) "20713085" ["pubdate"]=> string(11) "2010 Oct 30" ["epubdate"]=> string(11) "2010 Aug 14" ["source"]=> string(18) "J Neurosci Methods" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(8) "Hagan CE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Schenk JO" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Schenk JO" ["title"]=> string(100) "Rotating disk electrode voltammetric measurements of serotonin transporter kinetics in synaptosomes." ["sorttitle"]=> string(99) "rotating disk electrode voltammetric measurements of serotonin transporter kinetics in synaptosomes" ["volume"]=> string(3) "193" ["issue"]=> string(1) "1" ["pages"]=> string(5) "29-38" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7905558" ["issn"]=> string(9) "0165-0270" ["essn"]=> string(9) "1872-678X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "20713085" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS230181" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2952731" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC2952731;manuscript-id: NIHMS230181;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.jneumeth.2010.08.009" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0165-0270(10)00451-6" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2010/04/06 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2010/08/06 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2010/08/06 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/08/18 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/08/18 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/01/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(105) ["fulljournalname"]=> string(31) "Journal of neuroscience methods" ["elocationid"]=> string(35) "doi: 10.1016/j.jneumeth.2010.08.009" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2010/10/30 00:00" ["sortfirstauthor"]=> string(8) "Hagan CE" ["vernaculartitle"]=> string(0) "" } [20480149]=> array(43) { ["uid"]=> string(8) "20480149" ["pubdate"]=> string(8) "2011 Feb" ["epubdate"]=> string(11) "2010 May 18" ["source"]=> string(25) "Psychopharmacology (Berl)" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(11) "Murrough JW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Henry S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(4) "Hu J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Gallezot JD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(16) "Planeta-Wilson B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(12) "Neumeister A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(12) "Neumeister A" ["title"]=> string(110) "Reduced ventral striatal/ventral pallidal serotonin1B receptor binding potential in major depressive disorder." ["sorttitle"]=> string(109) "reduced ventral striatal ventral pallidal serotonin1b receptor binding potential in major depressive disorder" ["volume"]=> string(3) "213" ["issue"]=> string(3) "2-3" ["pages"]=> string(6) "547-53" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7608025" ["issn"]=> string(9) "0033-3158" ["essn"]=> string(9) "1432-2072" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "20480149" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS203297" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3139174" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3139174;manuscript-id: NIHMS203297;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1007/s00213-010-1881-0" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2010/03/18 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2010/05/04 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/05/19 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/05/19 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/05/25 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(42) ["fulljournalname"]=> string(18) "Psychopharmacology" ["elocationid"]=> string(30) "doi: 10.1007/s00213-010-1881-0" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/02/01 00:00" ["sortfirstauthor"]=> string(11) "Murrough JW" ["vernaculartitle"]=> string(0) "" } [20172504]=> array(43) { ["uid"]=> string(8) "20172504" ["pubdate"]=> string(10) "2010 May 1" ["epubdate"]=> string(11) "2010 Feb 20" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(12) { [0]=> array(3) { ["name"]=> string(4) "Hu J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Henry S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Gallezot JD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Ropchan J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Potenza MN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(7) "Sinha R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Krystal JH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(7) "Huang Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(7) "Ding YS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(9) "Carson RE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(12) "Neumeister A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(12) "Neumeister A" ["title"]=> string(52) "Serotonin 1B receptor imaging in alcohol dependence." ["sorttitle"]=> string(51) "serotonin 1b receptor imaging in alcohol dependence" ["volume"]=> string(2) "67" ["issue"]=> string(1) "9" ["pages"]=> string(5) "800-3" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(9) "1873-2402" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "20172504" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS169918" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3112181" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3112181;manuscript-id: NIHMS169918;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.biopsych.2009.12.028" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-3223(10)00003-X" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2009/09/16 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2009/12/18 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2009/12/22 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/02/23 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/02/23 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2010/06/29 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(19) ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(35) "doi: 10.1016/j.biopsych.2009.12.028" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2010/05/01 00:00" ["sortfirstauthor"]=> string(4) "Hu J" ["vernaculartitle"]=> string(0) "" } [19817843]=> array(43) { ["uid"]=> string(8) "19817843" ["pubdate"]=> string(8) "2009 Oct" ["epubdate"]=> string(10) "2009 Oct 8" ["source"]=> string(14) "Eur J Neurosci" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Sandygren NA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(133) "Pairing mild stress with increased serotonin-1B receptor expression in the nucleus accumbens increases susceptibility to amphetamine." ["sorttitle"]=> string(132) "pairing mild stress with increased serotonin 1b receptor expression in the nucleus accumbens increases susceptibility to amphetamine" ["volume"]=> string(2) "30" ["issue"]=> string(1) "8" ["pages"]=> string(7) "1576-84" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8918110" ["issn"]=> string(9) "0953-816X" ["essn"]=> string(9) "1460-9568" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "19817843" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS148001" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2766620" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC2766620;manuscript-id: NIHMS148001;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1111/j.1460-9568.2009.06933.x" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "EJN6933" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2009/10/13 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2009/10/13 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2010/01/06 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(36) ["fulljournalname"]=> string(36) "The European journal of neuroscience" ["elocationid"]=> string(37) "doi: 10.1111/j.1460-9568.2009.06933.x" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2009/10/01 00:00" ["sortfirstauthor"]=> string(11) "Ferguson SM" ["vernaculartitle"]=> string(0) "" } [19659573]=> array(43) { ["uid"]=> string(8) "19659573" ["pubdate"]=> string(8) "2009 Oct" ["epubdate"]=> string(11) "2009 Jul 30" ["source"]=> string(11) "J Neurochem" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Polis IY" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Parsons LH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Parsons LH" ["title"]=> string(110) "Acquisition of and withdrawal from cocaine self-administration regulates 5-HT mRNA expression in rat striatum." ["sorttitle"]=> string(109) "acquisition of and withdrawal from cocaine self administration regulates 5 ht mrna expression in rat striatum" ["volume"]=> string(3) "111" ["issue"]=> string(1) "1" ["pages"]=> string(6) "217-27" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(8) "2985190R" ["issn"]=> string(9) "0022-3042" ["essn"]=> string(9) "1471-4159" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "19659573" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1111/j.1471-4159.2009.06313.x" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "JNC6313" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2009/08/08 09:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2009/08/08 09:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2009/10/10 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(25) "Journal of neurochemistry" ["elocationid"]=> string(37) "doi: 10.1111/j.1471-4159.2009.06313.x" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2009/10/01 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [19524553]=> array(43) { ["uid"]=> string(8) "19524553" ["pubdate"]=> string(11) "2009 Aug 18" ["epubdate"]=> string(11) "2009 Jun 12" ["source"]=> string(9) "Brain Res" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Szot P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Baratta MV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Bland ST" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "White SS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Maier SF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(92) "Stress-induced activity in the locus coeruleus is not sensitive to stressor controllability." ["sorttitle"]=> string(91) "stress induced activity in the locus coeruleus is not sensitive to stressor controllability" ["volume"]=> string(4) "1285" ["issue"]=> string(0) "" ["pages"]=> string(6) "109-18" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0045503" ["issn"]=> string(9) "0006-8993" ["essn"]=> string(9) "1872-6240" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "19524553" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS123979" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2739002" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC2739002;manuscript-id: NIHMS123979;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.brainres.2009.06.017" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-8993(09)01168-8" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2009/03/18 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2009/06/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2009/06/04 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2009/06/16 09:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2009/06/16 09:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2009/12/16 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(71) ["fulljournalname"]=> string(14) "Brain research" ["elocationid"]=> string(35) "doi: 10.1016/j.brainres.2009.06.017" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2009/08/18 00:00" ["sortfirstauthor"]=> string(11) "McDevitt RA" ["vernaculartitle"]=> string(0) "" } [19396878]=> array(43) { ["uid"]=> string(8) "19396878" ["pubdate"]=> string(8) "2009 Sep" ["epubdate"]=> string(0) "" ["source"]=> string(14) "J Neurosci Res" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Mitchell ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(114) "Adaptations in 5-HT receptor expression and function: implications for treatment of cognitive impairment in aging." ["sorttitle"]=> string(112) "adaptations in 5 ht receptor expression and function implications for treatment of cognitive impairment in aging" ["volume"]=> string(2) "87" ["issue"]=> string(2) "12" ["pages"]=> string(7) "2803-11" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7600111" ["issn"]=> string(9) "0360-4012" ["essn"]=> string(9) "1097-4547" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "19396878" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1002/jnr.22100" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2009/04/28 09:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2009/04/28 09:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2010/01/13 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(32) "Journal of neuroscience research" ["elocationid"]=> string(22) "doi: 10.1002/jnr.22100" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2009/09/01 00:00" ["sortfirstauthor"]=> string(11) "Mitchell ES" ["vernaculartitle"]=> string(0) "" } [19295158]=> array(43) { ["uid"]=> string(8) "19295158" ["pubdate"]=> string(11) "2009 Mar 18" ["epubdate"]=> string(0) "" ["source"]=> string(10) "J Neurosci" ["authors"]=> array(21) { [0]=> array(3) { ["name"]=> string(8) "Russo SJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Wilkinson MB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(16) "Mazei-Robison MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Dietz DM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Maze I" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Krishnan V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Renthal W" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(8) "Graham A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Birnbaum SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(8) "Green TA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(9) "Robison B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(12) "Lesselyong A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [12]=> array(3) { ["name"]=> string(11) "Perrotti LI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [13]=> array(3) { ["name"]=> string(11) "Bolaños CA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [14]=> array(3) { ["name"]=> string(7) "Kumar A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [15]=> array(3) { ["name"]=> string(8) "Clark MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [16]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [17]=> array(3) { ["name"]=> string(7) "Neve RL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [18]=> array(3) { ["name"]=> string(9) "Bhakar AL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [19]=> array(3) { ["name"]=> string(9) "Barker PA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [20]=> array(3) { ["name"]=> string(10) "Nestler EJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Nestler EJ" ["title"]=> string(82) "Nuclear factor kappa B signaling regulates neuronal morphology and cocaine reward." ["sorttitle"]=> string(81) "nuclear factor kappa b signaling regulates neuronal morphology and cocaine reward" ["volume"]=> string(2) "29" ["issue"]=> string(2) "11" ["pages"]=> string(7) "3529-37" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8102140" ["issn"]=> string(9) "0270-6474" ["essn"]=> string(9) "1529-2401" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(8) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "19295158" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS103489" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2677656" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC2677656;manuscript-id: NIHMS103489;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1523/JNEUROSCI.6173-08.2009" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "29/11/3529" } [6]=> array(3) { ["idtype"]=> string(7) "version" ["idtypen"]=> int(8) ["value"]=> string(1) "2" } [7]=> array(3) { ["idtype"]=> string(10) "version-id" ["idtypen"]=> int(8) ["value"]=> string(1) "2" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2009/03/20 09:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2009/03/20 09:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2009/04/14 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(55) ["fulljournalname"]=> string(82) "The Journal of neuroscience : the official journal of the Society for Neuroscience" ["elocationid"]=> string(35) "doi: 10.1523/JNEUROSCI.6173-08.2009" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2009/03/18 00:00" ["sortfirstauthor"]=> string(8) "Russo SJ" ["vernaculartitle"]=> string(0) "" } [19049819]=> array(43) { ["uid"]=> string(8) "19049819" ["pubdate"]=> string(11) "2009 Jan 23" ["epubdate"]=> string(10) "2008 Nov 1" ["source"]=> string(12) "Neuroscience" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(7) "Hiroi R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(179) "Estrogen decreases 5-HT1B autoreceptor mRNA in selective subregion of rat dorsal raphe nucleus: inverse association between gene expression and anxiety behavior in the open field." ["sorttitle"]=> string(177) "estrogen decreases 5 ht1b autoreceptor mrna in selective subregion of rat dorsal raphe nucleus inverse association between gene expression and anxiety behavior in the open field" ["volume"]=> string(3) "158" ["issue"]=> string(1) "2" ["pages"]=> string(6) "456-64" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7605074" ["issn"]=> string(9) "0306-4522" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "19049819" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(10) "NIHMS94265" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2667128" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(45) "pmc-id: PMC2667128;manuscript-id: NIHMS94265;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1016/j.neuroscience.2008.10.016" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0306-4522(08)01532-7" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2008/04/07 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2008/10/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2008/10/14 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2008/12/04 09:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2008/12/04 09:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2009/04/16 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(91) ["fulljournalname"]=> string(12) "Neuroscience" ["elocationid"]=> string(39) "doi: 10.1016/j.neuroscience.2008.10.016" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2009/01/23 00:00" ["sortfirstauthor"]=> string(7) "Hiroi R" ["vernaculartitle"]=> string(0) "" } [18502320]=> array(43) { ["uid"]=> string(8) "18502320" ["pubdate"]=> string(10) "2008 Jul 1" ["epubdate"]=> string(11) "2008 Feb 12" ["source"]=> string(14) "Brain Res Bull" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(9) "Riegert C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Rothmaier AK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Leemhuis J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Cassel JC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Jackisch R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Jackisch R" ["title"]=> string(168) "Increased expression of 5-HT(1B) receptors by Herpes simplex virus gene transfer in septal neurons: New in vitro and in vivo models to study 5-HT(1B) receptor function." ["sorttitle"]=> string(164) "increased expression of 5 ht 1b receptors by herpes simplex virus gene transfer in septal neurons new in vitro and in vivo models to study 5 ht 1b receptor function" ["volume"]=> string(2) "76" ["issue"]=> string(1) "4" ["pages"]=> string(6) "439-53" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7605818" ["issn"]=> string(9) "0361-9230" ["essn"]=> string(9) "1873-2747" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "18502320" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(10) "NIHMS85516" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2667131" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(45) "pmc-id: PMC2667131;manuscript-id: NIHMS85516;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1016/j.brainresbull.2008.01.015" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0361-9230(08)00019-1" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2007/11/12 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2008/01/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2008/01/15 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2008/05/27 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2008/07/17 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2008/05/27 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(59) ["fulljournalname"]=> string(23) "Brain research bulletin" ["elocationid"]=> string(39) "doi: 10.1016/j.brainresbull.2008.01.015" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2008/07/01 00:00" ["sortfirstauthor"]=> string(9) "Riegert C" ["vernaculartitle"]=> string(0) "" } [17920665]=> array(43) { ["uid"]=> string(8) "17920665" ["pubdate"]=> string(8) "2008 Jan" ["epubdate"]=> string(11) "2007 Sep 14" ["source"]=> string(23) "Pharmacol Biochem Behav" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Mitchell ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(128) "5-HT6 receptor antagonist reversal of emotional learning and prepulse inhibition deficits induced by apomorphine or scopolamine." ["sorttitle"]=> string(127) "5 ht6 receptor antagonist reversal of emotional learning and prepulse inhibition deficits induced by apomorphine or scopolamine" ["volume"]=> string(2) "88" ["issue"]=> string(1) "3" ["pages"]=> string(5) "291-8" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0367050" ["issn"]=> string(9) "0091-3057" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "17920665" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(10) "NIHMS38652" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2322863" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(45) "pmc-id: PMC2322863;manuscript-id: NIHMS38652;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.pbb.2007.08.015" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0091-3057(07)00266-3" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2006/11/21 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2007/08/09 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2007/08/25 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2007/10/09 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2008/04/10 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2007/10/09 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(45) ["fulljournalname"]=> string(40) "Pharmacology, biochemistry, and behavior" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2008/01/01 00:00" ["sortfirstauthor"]=> string(11) "Mitchell ES" ["vernaculartitle"]=> string(0) "" } [17631868]=> array(43) { ["uid"]=> string(8) "17631868" ["pubdate"]=> string(11) "2008 Jan 15" ["epubdate"]=> string(11) "2007 Jul 12" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Mitchell ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(139) "Increased expression of 5-HT6 receptors in the nucleus accumbens blocks the rewarding but not psychomotor activating properties of cocaine." ["sorttitle"]=> string(138) "increased expression of 5 ht6 receptors in the nucleus accumbens blocks the rewarding but not psychomotor activating properties of cocaine" ["volume"]=> string(2) "63" ["issue"]=> string(1) "2" ["pages"]=> string(6) "207-13" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(9) "1873-2402" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "17631868" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.biopsych.2007.02.018" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-3223(07)00149-7" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2006/11/17 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2007/02/16 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2007/02/16 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2007/07/17 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2008/02/28 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2007/07/17 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2008/01/15 00:00" ["sortfirstauthor"]=> string(11) "Ferguson SM" ["vernaculartitle"]=> string(0) "" } [17559089]=> array(43) { ["uid"]=> string(8) "17559089" ["pubdate"]=> string(11) "2007 Aug 10" ["epubdate"]=> string(0) "" ["source"]=> string(13) "J Comp Neurol" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(8) "Suzuki S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Zhou H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Pham TA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(7) "Pham TA" ["title"]=> string(111) "Opposing functions of CREB and MKK1 synergistically regulate the geometry of dendritic spines in visual cortex." ["sorttitle"]=> string(110) "opposing functions of creb and mkk1 synergistically regulate the geometry of dendritic spines in visual cortex" ["volume"]=> string(3) "503" ["issue"]=> string(1) "5" ["pages"]=> string(6) "605-17" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0406041" ["issn"]=> string(9) "0021-9967" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "17559089" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1002/cne.21424" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2007/06/15 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2007/10/13 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2007/06/15 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(36) "The Journal of comparative neurology" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2007/08/10 00:00" ["sortfirstauthor"]=> string(8) "Suzuki S" ["vernaculartitle"]=> string(0) "" } [17509084]=> array(43) { ["uid"]=> string(8) "17509084" ["pubdate"]=> string(8) "2007 May" ["epubdate"]=> string(11) "2007 May 17" ["source"]=> string(14) "Eur J Neurosci" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(8) "Barot SK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Ferguson SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(105) "5-HT(1B) receptors in nucleus accumbens efferents enhance both rewarding and aversive effects of cocaine." ["sorttitle"]=> string(103) "5 ht 1b receptors in nucleus accumbens efferents enhance both rewarding and aversive effects of cocaine" ["volume"]=> string(2) "25" ["issue"]=> string(2) "10" ["pages"]=> string(7) "3125-31" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8918110" ["issn"]=> string(9) "0953-816X" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "17509084" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1111/j.1460-9568.2007.05568.x" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "EJN5568" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2007/05/19 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2007/08/19 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2007/05/19 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(36) "The European journal of neuroscience" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2007/05/01 00:00" ["sortfirstauthor"]=> string(8) "Barot SK" ["vernaculartitle"]=> string(0) "" } [17467184]=> array(43) { ["uid"]=> string(8) "17467184" ["pubdate"]=> string(10) "2007 Jun 8" ["epubdate"]=> string(11) "2007 Apr 30" ["source"]=> string(12) "Neuroscience" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(8) "Clark MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Hoplight BJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(204) "Chronic low dose ovine corticotropin releasing factor or urocortin II into the rostral dorsal raphe alters exploratory behavior and serotonergic gene expression in specific subregions of the dorsal raphe." ["sorttitle"]=> string(203) "chronic low dose ovine corticotropin releasing factor or urocortin ii into the rostral dorsal raphe alters exploratory behavior and serotonergic gene expression in specific subregions of the dorsal raphe" ["volume"]=> string(3) "146" ["issue"]=> string(1) "4" ["pages"]=> string(8) "1888-905" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7605074" ["issn"]=> string(9) "0306-4522" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "17467184" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(10) "NIHMS22398" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2084465" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(45) "pmc-id: PMC2084465;manuscript-id: NIHMS22398;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1016/j.neuroscience.2007.03.032" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0306-4522(07)00352-1" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2006/03/21 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2007/03/19 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2007/03/23 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2007/05/01 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2007/10/27 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2007/05/01 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(111) ["fulljournalname"]=> string(12) "Neuroscience" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2007/06/08 00:00" ["sortfirstauthor"]=> string(8) "Clark MS" ["vernaculartitle"]=> string(0) "" } [17192775]=> array(43) { ["uid"]=> string(8) "17192775" ["pubdate"]=> string(8) "2007 Jul" ["epubdate"]=> string(11) "2006 Dec 27" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Mitchell ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Sexton T" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(102) "Increased expression of 5-HT6 receptors in the rat dorsomedial striatum impairs instrumental learning." ["sorttitle"]=> string(101) "increased expression of 5 ht6 receptors in the rat dorsomedial striatum impairs instrumental learning" ["volume"]=> string(2) "32" ["issue"]=> string(1) "7" ["pages"]=> string(7) "1520-30" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "17192775" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(22) "10.1038/sj.npp.1301284" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "1301284" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/12/29 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2007/09/01 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/12/29 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2007/07/01 00:00" ["sortfirstauthor"]=> string(11) "Mitchell ES" ["vernaculartitle"]=> string(0) "" } [17059838]=> array(43) { ["uid"]=> string(8) "17059838" ["pubdate"]=> string(8) "2007 Feb" ["epubdate"]=> string(11) "2006 Oct 23" ["source"]=> string(17) "Neuropharmacology" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Hoplight BJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Vincow ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(69) "Cocaine increases 5-HT1B mRNA in rat nucleus accumbens shell neurons." ["sorttitle"]=> string(68) "cocaine increases 5 ht1b mrna in rat nucleus accumbens shell neurons" ["volume"]=> string(2) "52" ["issue"]=> string(1) "2" ["pages"]=> string(5) "444-9" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0236217" ["issn"]=> string(9) "0028-3908" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "17059838" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1016/j.neuropharm.2006.08.013" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0028-3908(06)00284-X" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2006/05/30 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2006/08/15 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2006/08/21 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/10/25 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2007/04/11 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/10/25 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(17) "Neuropharmacology" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2007/02/01 00:00" ["sortfirstauthor"]=> string(11) "Hoplight BJ" ["vernaculartitle"]=> string(0) "" } [16917826]=> array(43) { ["uid"]=> string(8) "16917826" ["pubdate"]=> string(11) "2006 Oct 10" ["epubdate"]=> string(0) "" ["source"]=> string(13) "J Comp Neurol" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(8) "Clark MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(177) "Quantitative mapping of tryptophan hydroxylase-2, 5-HT1A, 5-HT1B, and serotonin transporter expression across the anteroposterior axis of the rat dorsal and median raphe nuclei." ["sorttitle"]=> string(173) "quantitative mapping of tryptophan hydroxylase 2 5 ht1a 5 ht1b and serotonin transporter expression across the anteroposterior axis of the rat dorsal and median raphe nuclei" ["volume"]=> string(3) "498" ["issue"]=> string(1) "5" ["pages"]=> string(6) "611-23" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0406041" ["issn"]=> string(9) "0021-9967" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "16917826" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1002/cne.21073" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/08/19 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/10/19 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/08/19 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(36) "The Journal of comparative neurology" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2006/10/10 00:00" ["sortfirstauthor"]=> string(8) "Clark MS" ["vernaculartitle"]=> string(0) "" } [16839853]=> array(43) { ["uid"]=> string(8) "16839853" ["pubdate"]=> string(8) "2006 Feb" ["epubdate"]=> string(0) "" ["source"]=> string(7) "Alcohol" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Hoplight BJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Sandygren NA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(141) "Increased expression of 5-HT1B receptors in rat nucleus accumbens via virally mediated gene transfer increases voluntary alcohol consumption." ["sorttitle"]=> string(140) "increased expression of 5 ht1b receptors in rat nucleus accumbens via virally mediated gene transfer increases voluntary alcohol consumption" ["volume"]=> string(2) "38" ["issue"]=> string(1) "2" ["pages"]=> string(4) "73-9" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8502311" ["issn"]=> string(9) "0741-8329" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "16839853" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.alcohol.2006.04.003" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0741-8329(06)00073-5" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2005/09/18 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2006/04/06 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2006/04/11 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/07/15 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/11/15 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/07/15 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(28) "Alcohol (Fayetteville, N.Y.)" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2006/02/01 00:00" ["sortfirstauthor"]=> string(11) "Hoplight BJ" ["vernaculartitle"]=> string(0) "" } [16458260]=> array(43) { ["uid"]=> string(8) "16458260" ["pubdate"]=> string(10) "2006 Aug 1" ["epubdate"]=> string(10) "2006 Feb 3" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(7) "Hiroi R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "McDevitt RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(201) "Estrogen selectively increases tryptophan hydroxylase-2 mRNA expression in distinct subregions of rat midbrain raphe nucleus: association between gene expression and anxiety behavior in the open field." ["sorttitle"]=> string(199) "estrogen selectively increases tryptophan hydroxylase 2 mrna expression in distinct subregions of rat midbrain raphe nucleus association between gene expression and anxiety behavior in the open field" ["volume"]=> string(2) "60" ["issue"]=> string(1) "3" ["pages"]=> string(6) "288-95" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "16458260" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.biopsych.2005.10.019" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-3223(05)01419-8" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2005/06/14 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2005/09/13 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2005/10/06 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/02/07 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/09/23 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/02/07 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2006/08/01 00:00" ["sortfirstauthor"]=> string(7) "Hiroi R" ["vernaculartitle"]=> string(0) "" } [16298400]=> array(43) { ["uid"]=> string(8) "16298400" ["pubdate"]=> string(8) "2006 Mar" ["epubdate"]=> string(11) "2005 Nov 18" ["source"]=> string(17) "Neuropharmacology" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(11) "Mitchell ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Hoplight BJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "Lear SP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(200) "BGC20-761, a novel tryptamine analog, enhances memory consolidation and reverses scopolamine-induced memory deficit in social and visuospatial memory tasks through a 5-HT6 receptor-mediated mechanism." ["sorttitle"]=> string(197) "bgc20 761 a novel tryptamine analog enhances memory consolidation and reverses scopolamine induced memory deficit in social and visuospatial memory tasks through a 5 ht6 receptor mediated mechanism" ["volume"]=> string(2) "50" ["issue"]=> string(1) "4" ["pages"]=> string(6) "412-20" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0236217" ["issn"]=> string(9) "0028-3908" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "16298400" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1016/j.neuropharm.2005.10.002" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0028-3908(05)00360-6" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2005/06/22 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2005/09/28 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2005/10/05 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2005/11/22 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/07/13 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2005/11/22 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(17) "Neuropharmacology" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2006/03/01 00:00" ["sortfirstauthor"]=> string(11) "Mitchell ES" ["vernaculartitle"]=> string(0) "" } [16154649]=> array(43) { ["uid"]=> string(8) "16154649" ["pubdate"]=> string(10) "2006 Jan 6" ["epubdate"]=> string(10) "2005 Sep 9" ["source"]=> string(15) "Behav Brain Res" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(7) "Hiroi R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(124) "Differential effects of ovarian steroids on anxiety versus fear as measured by open field test and fear-potentiated startle." ["sorttitle"]=> string(123) "differential effects of ovarian steroids on anxiety versus fear as measured by open field test and fear potentiated startle" ["volume"]=> string(3) "166" ["issue"]=> string(1) "1" ["pages"]=> string(6) "93-100" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8004872" ["issn"]=> string(9) "0166-4328" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "16154649" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.bbr.2005.07.021" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0166-4328(05)00288-3" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2005/03/17 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2005/07/18 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2005/07/19 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2005/09/13 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/03/15 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2005/09/13 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(26) "Behavioural brain research" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2006/01/06 00:00" ["sortfirstauthor"]=> string(7) "Hiroi R" ["vernaculartitle"]=> string(0) "" } [16010284]=> array(43) { ["uid"]=> string(8) "16010284" ["pubdate"]=> string(4) "2005" ["epubdate"]=> string(0) "" ["source"]=> string(18) "Pharmacogenomics J" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(7) "Kohen R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Kirov S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Navaja GP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Happe HK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Hamblin MW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Snoddy JR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(7) "Petty F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(7) "Petty F" ["title"]=> string(86) "Gene expression profiling in the hippocampus of learned helpless and nonhelpless rats." ["sorttitle"]=> string(85) "gene expression profiling in the hippocampus of learned helpless and nonhelpless rats" ["volume"]=> string(1) "5" ["issue"]=> string(1) "5" ["pages"]=> string(6) "278-91" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101083949" ["issn"]=> string(9) "1470-269X" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "16010284" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(22) "10.1038/sj.tpj.6500322" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "6500322" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2005/07/13 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/08/22 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2005/07/13 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(28) "The pharmacogenomics journal" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2005/01/01 00:00" ["sortfirstauthor"]=> string(7) "Kohen R" ["vernaculartitle"]=> string(0) "" } [16005519]=> array(43) { ["uid"]=> string(8) "16005519" ["pubdate"]=> string(8) "2005 Dec" ["epubdate"]=> string(10) "2005 Jul 7" ["source"]=> string(14) "Pharmacol Ther" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Mitchell ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(58) "5-HT6 receptors: a novel target for cognitive enhancement." ["sorttitle"]=> string(56) "5 ht6 receptors a novel target for cognitive enhancement" ["volume"]=> string(3) "108" ["issue"]=> string(1) "3" ["pages"]=> string(6) "320-33" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7905840" ["issn"]=> string(9) "0163-7258" ["essn"]=> string(0) "" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "16005519" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1016/j.pharmthera.2005.05.001" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0163-7258(05)00097-5" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2005/04/29 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2005/05/04 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2005/07/12 09:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/03/25 09:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2005/07/12 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(27) "Pharmacology & therapeutics" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2005/12/01 00:00" ["sortfirstauthor"]=> string(11) "Mitchell ES" ["vernaculartitle"]=> string(0) "" } [15885246]=> array(43) { ["uid"]=> string(8) "15885246" ["pubdate"]=> string(11) "2005 Apr 13" ["epubdate"]=> string(11) "2005 Apr 13" ["source"]=> string(13) "Physiol Behav" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Hoplight BJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Vincow ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(89) "The effects of SB 224289 on anxiety and cocaine-related behaviors in a novel object task." ["sorttitle"]=> string(84) "effects of sb 224289 on anxiety and cocaine related behaviors in a novel object task" ["volume"]=> string(2) "84" ["issue"]=> string(1) "5" ["pages"]=> string(6) "707-14" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0151504" ["issn"]=> string(9) "0031-9384" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "15885246" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.physbeh.2005.02.016" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0031-9384(05)00054-5" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2004/04/09 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2005/02/14 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2005/02/16 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2005/05/12 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2005/06/25 09:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2005/05/12 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(21) "Physiology & behavior" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2005/04/13 00:00" ["sortfirstauthor"]=> string(11) "Hoplight BJ" ["vernaculartitle"]=> string(0) "" } [15342998]=> array(43) { ["uid"]=> string(8) "15342998" ["pubdate"]=> string(8) "2004 Sep" ["epubdate"]=> string(0) "" ["source"]=> string(5) "J ECT" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(11) "Bakewell CJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Russo J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Tanner C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Avery DH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(127) "Comparison of clinical efficacy and side effects for bitemporal and bifrontal electrode placement in electroconvulsive therapy." ["sorttitle"]=> string(126) "comparison of clinical efficacy and side effects for bitemporal and bifrontal electrode placement in electroconvulsive therapy" ["volume"]=> string(2) "20" ["issue"]=> string(1) "3" ["pages"]=> string(6) "145-53" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9808943" ["issn"]=> string(9) "1095-0680" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "15342998" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1097/00124509-200409000-00005" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(24) "00124509-200409000-00005" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2004/09/03 05:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2005/01/28 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2004/09/03 05:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(18) "The journal of ECT" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2004/09/01 00:00" ["sortfirstauthor"]=> string(11) "Bakewell CJ" ["vernaculartitle"]=> string(0) "" } [15064139]=> array(43) { ["uid"]=> string(8) "15064139" ["pubdate"]=> string(10) "2004 May 8" ["epubdate"]=> string(0) "" ["source"]=> string(9) "Brain Res" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(8) "Clark MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Vincow ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(128) "Increased expression of 5-HT1B receptor in dorsal raphe nucleus decreases fear-potentiated startle in a stress dependent manner." ["sorttitle"]=> string(127) "increased expression of 5 ht1b receptor in dorsal raphe nucleus decreases fear potentiated startle in a stress dependent manner" ["volume"]=> string(4) "1007" ["issue"]=> string(3) "1-2" ["pages"]=> string(5) "86-97" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0045503" ["issn"]=> string(9) "0006-8993" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "15064139" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1016/j.brainres.2004.01.070" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "S0006899304002513" } } ["history"]=> array(4) { [0]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2004/01/15 00:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2004/04/06 05:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2004/07/20 05:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2004/04/06 05:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(14) "Brain research" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2004/05/08 00:00" ["sortfirstauthor"]=> string(8) "Clark MS" ["vernaculartitle"]=> string(0) "" } [14978467]=> array(43) { ["uid"]=> string(8) "14978467" ["pubdate"]=> string(8) "2003 Dec" ["epubdate"]=> string(0) "" ["source"]=> string(10) "CNS Spectr" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(14) "Holtzheimer PE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(25) "Treatment of acute mania." ["sorttitle"]=> string(24) "treatment of acute mania" ["volume"]=> string(1) "8" ["issue"]=> string(2) "12" ["pages"]=> string(13) "917-20, 924-8" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9702877" ["issn"]=> string(9) "1092-8529" ["essn"]=> string(0) "" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "14978467" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1017/s1092852900028698" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2004/02/24 05:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2004/04/22 05:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2004/02/24 05:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(13) "CNS spectrums" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2003/12/01 00:00" ["sortfirstauthor"]=> string(14) "Holtzheimer PE" ["vernaculartitle"]=> string(0) "" } [14749205]=> array(43) { ["uid"]=> string(8) "14749205" ["pubdate"]=> string(8) "2004 Jun" ["epubdate"]=> string(11) "2004 Jan 28" ["source"]=> string(29) "Am J Physiol Endocrinol Metab" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(12) "Figlewicz DP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Zavosh A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Sexton T" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(97) "Catabolic action of insulin in rat arcuate nucleus is not enhanced by exogenous "tub" expression." ["sorttitle"]=> string(94) "catabolic action of insulin in rat arcuate nucleus is not enhanced by exogenous tub expression" ["volume"]=> string(3) "286" ["issue"]=> string(1) "6" ["pages"]=> string(8) "E1004-10" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "100901226" ["issn"]=> string(9) "0193-1849" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "14749205" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(26) "10.1152/ajpendo.00427.2003" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "00427.2003" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2004/01/30 05:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2004/06/26 05:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2004/01/30 05:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(60) "American journal of physiology. Endocrinology and metabolism" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2004/06/01 00:00" ["sortfirstauthor"]=> string(12) "Figlewicz DP" ["vernaculartitle"]=> string(0) "" } [12957218]=> array(43) { ["uid"]=> string(8) "12957218" ["pubdate"]=> string(8) "2003 Jul" ["epubdate"]=> string(0) "" ["source"]=> string(23) "Pharmacol Biochem Behav" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(10) "Kaiyala KJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Vincow ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(121) "5-HT1B receptor mRNA levels in dorsal raphe nucleus: inverse association with anxiety behavior in the elevated plus maze." ["sorttitle"]=> string(119) "5 ht1b receptor mrna levels in dorsal raphe nucleus inverse association with anxiety behavior in the elevated plus maze" ["volume"]=> string(2) "75" ["issue"]=> string(1) "4" ["pages"]=> string(6) "769-76" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0367050" ["issn"]=> string(9) "0091-3057" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "12957218" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/s0091-3057(03)00152-7" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "S0091305703001527" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2003/09/06 05:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2004/04/14 05:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2003/09/06 05:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(40) "Pharmacology, biochemistry, and behavior" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2003/07/01 00:00" ["sortfirstauthor"]=> string(10) "Kaiyala KJ" ["vernaculartitle"]=> string(0) "" } [12644357]=> array(43) { ["uid"]=> string(8) "12644357" ["pubdate"]=> string(11) "2003 Mar 15" ["epubdate"]=> string(0) "" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(7) "Kohen R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Hamblin MW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Edwards E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Edwards E" ["title"]=> string(81) "Congenitally learned helpless rats show abnormalities in intracellular signaling." ["sorttitle"]=> string(80) "congenitally learned helpless rats show abnormalities in intracellular signaling" ["volume"]=> string(2) "53" ["issue"]=> string(1) "6" ["pages"]=> string(5) "520-9" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "12644357" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/s0006-3223(02)01503-2" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "S0006322302015032" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2003/03/20 04:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2003/07/04 05:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2003/03/20 04:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2003/03/15 00:00" ["sortfirstauthor"]=> string(7) "Kohen R" ["vernaculartitle"]=> string(0) "" } [12550744]=> array(43) { ["uid"]=> string(8) "12550744" ["pubdate"]=> string(8) "2003 Feb" ["epubdate"]=> string(0) "" ["source"]=> string(19) "Curr Opin Pharmacol" ["authors"]=> array(1) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(62) "Gene therapy in psychiatric disorders: too early, too complex?" ["sorttitle"]=> string(59) "gene therapy in psychiatric disorders too early too complex" ["volume"]=> string(1) "3" ["issue"]=> string(1) "1" ["pages"]=> string(5) "68-72" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "100966133" ["issn"]=> string(9) "1471-4892" ["essn"]=> string(0) "" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "12550744" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/s1471-4892(02)00012-7" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "S1471489202000127" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2003/01/29 04:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2003/07/02 05:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2003/01/29 04:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(31) "Current opinion in pharmacology" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2003/02/01 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [12486179]=> array(43) { ["uid"]=> string(8) "12486179" ["pubdate"]=> string(11) "2002 Dec 15" ["epubdate"]=> string(0) "" ["source"]=> string(10) "J Neurosci" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Vincow ES" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(17) "Arvanitogiannis A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Wise RA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(14) "Carlezon WA Jr" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(14) "Carlezon WA Jr" ["title"]=> string(101) "Elevated expression of 5-HT1B receptors in nucleus accumbens efferents sensitizes animals to cocaine." ["sorttitle"]=> string(100) "elevated expression of 5 ht1b receptors in nucleus accumbens efferents sensitizes animals to cocaine" ["volume"]=> string(2) "22" ["issue"]=> string(2) "24" ["pages"]=> string(8) "10856-63" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8102140" ["issn"]=> string(9) "0270-6474" ["essn"]=> string(9) "1529-2401" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "12486179" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6758423" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6758423;" } [3]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(11) "22/24/10856" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1523/JNEUROSCI.22-24-10856.2002" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2002/12/18 04:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2003/01/24 04:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2002/12/18 04:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(63) ["fulljournalname"]=> string(82) "The Journal of neuroscience : the official journal of the Society for Neuroscience" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2002/12/15 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [12397864]=> array(43) { ["uid"]=> string(8) "12397864" ["pubdate"]=> string(11) "2001 Autumn" ["epubdate"]=> string(0) "" ["source"]=> string(20) "Psychopharmacol Bull" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(8) "Clark MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(45) "The 5-HT1B receptor: behavioral implications." ["sorttitle"]=> string(39) "5 ht1b receptor behavioral implications" ["volume"]=> string(2) "35" ["issue"]=> string(1) "4" ["pages"]=> string(6) "170-85" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0101123" ["issn"]=> string(9) "0048-5764" ["essn"]=> string(0) "" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(1) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "12397864" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2002/10/26 04:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2002/11/26 04:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2002/10/26 04:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(27) "Psychopharmacology bulletin" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2001/10/01 00:00" ["sortfirstauthor"]=> string(8) "Clark MS" ["vernaculartitle"]=> string(0) "" } [12040062]=> array(43) { ["uid"]=> string(8) "12040062" ["pubdate"]=> string(10) "2002 Jun 1" ["epubdate"]=> string(0) "" ["source"]=> string(10) "J Neurosci" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(8) "Clark MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "McClain M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Root D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(7) "Kohen R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(151) "Overexpression of 5-HT1B receptor in dorsal raphe nucleus using Herpes Simplex Virus gene transfer increases anxiety behavior after inescapable stress." ["sorttitle"]=> string(150) "overexpression of 5 ht1b receptor in dorsal raphe nucleus using herpes simplex virus gene transfer increases anxiety behavior after inescapable stress" ["volume"]=> string(2) "22" ["issue"]=> string(2) "11" ["pages"]=> string(7) "4550-62" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8102140" ["issn"]=> string(9) "0270-6474" ["essn"]=> string(9) "1529-2401" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(5) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "12040062" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6758774" } [2]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6758774;" } [3]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "22/11/4550" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(34) "10.1523/JNEUROSCI.22-11-04550.2002" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2002/06/01 10:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2002/07/06 10:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2002/06/01 10:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(78) ["fulljournalname"]=> string(82) "The Journal of neuroscience : the official journal of the Society for Neuroscience" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2002/06/01 00:00" ["sortfirstauthor"]=> string(8) "Clark MS" ["vernaculartitle"]=> string(0) "" } [12022964]=> array(43) { ["uid"]=> string(8) "12022964" ["pubdate"]=> string(10) "2002 Jun 1" ["epubdate"]=> string(0) "" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Edwards E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Plotsky PM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Plotsky PM" ["title"]=> string(75) "5-HT(1B) mrna regulation in two animal models of altered stress reactivity." ["sorttitle"]=> string(73) "5 ht 1b mrna regulation in two animal models of altered stress reactivity" ["volume"]=> string(2) "51" ["issue"]=> string(2) "11" ["pages"]=> string(5) "902-8" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "12022964" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/s0006-3223(01)01371-3" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "S0006322301013713" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2002/05/23 10:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2002/07/04 10:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2002/05/23 10:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2002/06/01 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [11173221]=> array(43) { ["uid"]=> string(8) "11173221" ["pubdate"]=> string(8) "2001 Jan" ["epubdate"]=> string(0) "" ["source"]=> string(16) "J Chem Neuroanat" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Yracheta J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Diaz AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Brownfield M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(12) "Brownfield M" ["title"]=> string(133) "Localization of 5-HT(7) receptors in rat brain by immunocytochemistry, in situ hybridization, and agonist stimulated cFos expression." ["sorttitle"]=> string(129) "localization of 5 ht 7 receptors in rat brain by immunocytochemistry in situ hybridization and agonist stimulated cfos expression" ["volume"]=> string(2) "21" ["issue"]=> string(1) "1" ["pages"]=> string(5) "63-73" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8902615" ["issn"]=> string(9) "0891-0618" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "11173221" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/s0891-0618(00)00092-2" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0891-0618(00)00092-2" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2001/02/15 11:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2001/05/22 10:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2001/02/15 11:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(32) "Journal of chemical neuroanatomy" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2001/01/01 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [11042358]=> array(43) { ["uid"]=> string(8) "11042358" ["pubdate"]=> string(11) "2000 Oct 20" ["epubdate"]=> string(0) "" ["source"]=> string(23) "Brain Res Mol Brain Res" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Hamblin MW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Beck SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(7) "Beck SG" ["title"]=> string(84) "Corticosteroids regulate 5-HT(1A) but not 5-HT(1B) receptor mRNA in rat hippocampus." ["sorttitle"]=> string(81) "corticosteroids regulate 5 ht 1a but not 5 ht 1b receptor mrna in rat hippocampus" ["volume"]=> string(2) "82" ["issue"]=> string(3) "1-2" ["pages"]=> string(5) "65-73" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8908640" ["issn"]=> string(9) "0169-328X" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "11042358" } [1]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS187655" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2847791" } [3]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC2847791;manuscript-id: NIHMS187655;" } [4]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/s0169-328x(00)00181-9" } [5]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "S0169328X00001819" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2000/10/24 11:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2001/03/03 10:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2000/10/24 11:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(46) ["fulljournalname"]=> string(40) "Brain research. Molecular brain research" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2000/10/20 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [10889351]=> array(43) { ["uid"]=> string(8) "10889351" ["pubdate"]=> string(11) "2000 Jul 21" ["epubdate"]=> string(0) "" ["source"]=> string(13) "Neurosci Lett" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(14) "Zhukovskaya NL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(99) "Clozapine downregulates 5-hydroxytryptamine6 (5-HT6) and upregulates 5-HT7 receptors in HeLa cells." ["sorttitle"]=> string(96) "clozapine downregulates 5 hydroxytryptamine6 5 ht6 and upregulates 5 ht7 receptors in hela cells" ["volume"]=> string(3) "288" ["issue"]=> string(1) "3" ["pages"]=> string(6) "236-40" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7600130" ["issn"]=> string(9) "0304-3940" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "10889351" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/s0304-3940(00)01225-8" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "S0304394000012258" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2000/07/13 11:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2000/09/30 11:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2000/07/13 11:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(20) "Neuroscience letters" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2000/07/21 00:00" ["sortfirstauthor"]=> string(14) "Zhukovskaya NL" ["vernaculartitle"]=> string(0) "" } [10861803]=> array(43) { ["uid"]=> string(8) "10861803" ["pubdate"]=> string(10) "2000 Jul 1" ["epubdate"]=> string(0) "" ["source"]=> string(14) "J Neurosci Res" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(10) "Anthony JP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(123) "Antidepressant-induced regulation of 5-HT(1b) mRNA in rat dorsal raphe nucleus reverses rapidly after drug discontinuation." ["sorttitle"]=> string(121) "antidepressant induced regulation of 5 ht 1b mrna in rat dorsal raphe nucleus reverses rapidly after drug discontinuation" ["volume"]=> string(2) "61" ["issue"]=> string(1) "1" ["pages"]=> string(4) "82-7" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7600111" ["issn"]=> string(9) "0360-4012" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "10861803" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(56) "10.1002/1097-4547(20000701)61:1<82::AID-JNR10>3.0.CO;2-E" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(56) "10.1002/1097-4547(20000701)61:1<82::AID-JNR10>3.0.CO;2-E" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2000/06/22 10:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2000/08/19 11:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2000/06/22 10:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(32) "Journal of neuroscience research" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2000/07/01 00:00" ["sortfirstauthor"]=> string(10) "Anthony JP" ["vernaculartitle"]=> string(0) "" } [10716199]=> array(43) { ["uid"]=> string(8) "10716199" ["pubdate"]=> string(11) "1999 Dec 16" ["epubdate"]=> string(0) "" ["source"]=> string(11) "Neuroreport" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(11) "Stanness KA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Grant GA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Emmi A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Maris DO" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Janigro D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Janigro D" ["title"]=> string(118) "A new model of the blood--brain barrier: co-culture of neuronal, endothelial and glial cells under dynamic conditions." ["sorttitle"]=> string(112) "new model of the blood brain barrier co culture of neuronal endothelial and glial cells under dynamic conditions" ["volume"]=> string(2) "10" ["issue"]=> string(2) "18" ["pages"]=> string(7) "3725-31" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9100935" ["issn"]=> string(9) "0959-4965" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "10716199" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1097/00001756-199912160-00001" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2000/03/15 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2000/06/08 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2000/03/15 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(11) "Neuroreport" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1999/12/16 00:00" ["sortfirstauthor"]=> string(11) "Stanness KA" ["vernaculartitle"]=> string(0) "" } [10578240]=> array(43) { ["uid"]=> string(8) "10578240" ["pubdate"]=> string(8) "1999 Nov" ["epubdate"]=> string(0) "" ["source"]=> string(14) "Mol Psychiatry" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(9) "Sexton TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "McEvoy C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Neumaier JF" ["title"]=> string(144) "(+) 3,4-methylenedioxymethamphetamine ('ecstasy') transiently increases striatal 5-HT1B binding sites without altering 5-HT1B mRNA in rat brain." ["sorttitle"]=> string(135) "3 4 methylenedioxymethamphetamine ecstasy transiently increases striatal 5 ht1b binding sites without altering 5 ht1b mrna in rat brain" ["volume"]=> string(1) "4" ["issue"]=> string(1) "6" ["pages"]=> string(5) "572-9" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9607835" ["issn"]=> string(9) "1359-4184" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "10578240" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(21) "10.1038/sj.mp.4000574" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1999/12/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1999/12/01 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1999/12/01 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(20) "Molecular psychiatry" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1999/11/01 00:00" ["sortfirstauthor"]=> string(9) "Sexton TJ" ["vernaculartitle"]=> string(0) "" } [10067953]=> array(43) { ["uid"]=> string(8) "10067953" ["pubdate"]=> string(8) "1999 Feb" ["epubdate"]=> string(0) "" ["source"]=> string(15) "J Nerv Ment Dis" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(8) "Avery DH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Claypoole K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Robinson L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Dunner DL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Scheele L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(8) "Wilson L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Roy-Byrne P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Roy-Byrne P" ["title"]=> string(115) "Repetitive transcranial magnetic stimulation in the treatment of medication-resistant depression: preliminary data." ["sorttitle"]=> string(113) "repetitive transcranial magnetic stimulation in the treatment of medication resistant depression preliminary data" ["volume"]=> string(3) "187" ["issue"]=> string(1) "2" ["pages"]=> string(5) "114-7" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0375402" ["issn"]=> string(9) "0022-3018" ["essn"]=> string(0) "" ["pubtype"]=> array(3) { [0]=> string(14) "Clinical Trial" [1]=> string(15) "Journal Article" [2]=> string(27) "Randomized Controlled Trial" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(2) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "10067953" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1097/00005053-199902000-00009" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1999/03/06 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1999/03/06 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1999/03/06 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(0) { } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(41) "The Journal of nervous and mental disease" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1999/02/01 00:00" ["sortfirstauthor"]=> string(8) "Avery DH" ["vernaculartitle"]=> string(0) "" } [9066990]=> array(43) { ["uid"]=> string(7) "9066990" ["pubdate"]=> string(11) "1997 Mar 15" ["epubdate"]=> string(0) "" ["source"]=> string(15) "Biol Psychiatry" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Petty F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Kramer GL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Szot P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Hamblin MW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Hamblin MW" ["title"]=> string(106) "Learned helplessness increases 5-hydroxytryptamine1B receptor mRNA levels in the rat dorsal raphe nucleus." ["sorttitle"]=> string(105) "learned helplessness increases 5 hydroxytryptamine1b receptor mrna levels in the rat dorsal raphe nucleus" ["volume"]=> string(2) "41" ["issue"]=> string(1) "6" ["pages"]=> string(6) "668-74" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0213264" ["issn"]=> string(9) "0006-3223" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "9066990" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/S0006-3223(96)00114-X" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-3223(96)00114-X" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1997/03/15 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1997/03/15 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1997/03/15 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(21) "Biological psychiatry" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1997/03/15 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [8914125]=> array(43) { ["uid"]=> string(7) "8914125" ["pubdate"]=> string(8) "1996 Nov" ["epubdate"]=> string(0) "" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Root DC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Hamblin MW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Hamblin MW" ["title"]=> string(125) "Chronic fluoxetine reduces serotonin transporter mRNA and 5-HT1B mRNA in a sequential manner in the rat dorsal raphe nucleus." ["sorttitle"]=> string(124) "chronic fluoxetine reduces serotonin transporter mrna and 5 ht1b mrna in a sequential manner in the rat dorsal raphe nucleus" ["volume"]=> string(2) "15" ["issue"]=> string(1) "5" ["pages"]=> string(6) "515-22" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "8914125" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/S0893-133X(96)00095-4" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "S0893133X96000954" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1996/11/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1996/11/01 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1996/11/01 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1996/11/01 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [8813349]=> array(43) { ["uid"]=> string(7) "8813349" ["pubdate"]=> string(11) "1996 May 25" ["epubdate"]=> string(0) "" ["source"]=> string(9) "Brain Res" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Szot P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Peskind ER" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Dorsa DM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Hamblin MW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Hamblin MW" ["title"]=> string(116) "Serotonergic lesioning differentially affects presynaptic and postsynaptic 5-HT1B receptor mRNA levels in rat brain." ["sorttitle"]=> string(115) "serotonergic lesioning differentially affects presynaptic and postsynaptic 5 ht1b receptor mrna levels in rat brain" ["volume"]=> string(3) "722" ["issue"]=> string(3) "1-2" ["pages"]=> string(4) "50-8" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0045503" ["issn"]=> string(9) "0006-8993" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "8813349" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1016/0006-8993(96)00178-3" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(20) "0006-8993(96)00178-3" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1996/05/25 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1996/05/25 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1996/05/25 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(14) "Brain research" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1996/05/25 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [1978741]=> array(43) { ["uid"]=> string(7) "1978741" ["pubdate"]=> string(4) "1990" ["epubdate"]=> string(0) "" ["source"]=> string(12) "Neuroscience" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(9) "Wagner JJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Caudle RM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Chavkin C" ["title"]=> string(90) "Stimulation of endogenous opioid release displaces mu receptor binding in rat hippocampus." ["sorttitle"]=> string(89) "stimulation of endogenous opioid release displaces mu receptor binding in rat hippocampus" ["volume"]=> string(2) "37" ["issue"]=> string(1) "1" ["pages"]=> string(5) "45-53" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7605074" ["issn"]=> string(9) "0306-4522" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "1978741" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1016/0306-4522(90)90190-f" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(20) "0306-4522(90)90190-F" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1990/01/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1990/01/01 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1990/01/01 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(12) "Neuroscience" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1990/01/01 00:00" ["sortfirstauthor"]=> string(9) "Wagner JJ" ["vernaculartitle"]=> string(0) "" } [2557959]=> array(43) { ["uid"]=> string(7) "2557959" ["pubdate"]=> string(11) "1989 Oct 23" ["epubdate"]=> string(0) "" ["source"]=> string(9) "Brain Res" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Chavkin C" ["title"]=> string(137) "Calcium-dependent displacement of haloperidol-sensitive sigma receptor binding in rat hippocampal slices following tissue depolarization." ["sorttitle"]=> string(136) "calcium dependent displacement of haloperidol sensitive sigma receptor binding in rat hippocampal slices following tissue depolarization" ["volume"]=> string(3) "500" ["issue"]=> string(3) "1-2" ["pages"]=> string(6) "215-22" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0045503" ["issn"]=> string(9) "0006-8993" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "2557959" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1016/0006-8993(89)90316-8" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(20) "0006-8993(89)90316-8" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1989/10/23 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1989/10/23 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1989/10/23 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(14) "Brain research" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1989/10/23 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [2765901]=> array(43) { ["uid"]=> string(7) "2765901" ["pubdate"]=> string(11) "1989 Jul 31" ["epubdate"]=> string(0) "" ["source"]=> string(9) "Brain Res" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Chavkin C" ["title"]=> string(100) "Release of endogenous opioid peptides displaces [3H]diprenorphine binding in rat hippocampal slices." ["sorttitle"]=> string(98) "release of endogenous opioid peptides displaces 3h diprenorphine binding in rat hippocampal slices" ["volume"]=> string(3) "493" ["issue"]=> string(1) "2" ["pages"]=> string(7) "292-302" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0045503" ["issn"]=> string(9) "0006-8993" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(3) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "2765901" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1016/0006-8993(89)91164-5" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(20) "0006-8993(89)91164-5" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1989/07/31 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1989/07/31 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1989/07/31 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(14) "Brain research" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1989/07/31 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [2894454]=> array(43) { ["uid"]=> string(7) "2894454" ["pubdate"]=> string(8) "1988 Feb" ["epubdate"]=> string(0) "" ["source"]=> string(20) "J Pharmacol Exp Ther" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Mailheau S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Chavkin C" ["title"]=> string(94) "Opioid receptor-mediated responses in the dentate gyrus and CA1 region of the rat hippocampus." ["sorttitle"]=> string(93) "opioid receptor mediated responses in the dentate gyrus and ca1 region of the rat hippocampus" ["volume"]=> string(3) "244" ["issue"]=> string(1) "2" ["pages"]=> string(6) "564-70" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0376362" ["issn"]=> string(9) "0022-3565" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(1) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "2894454" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1988/02/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1988/02/01 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1988/02/01 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(57) "The Journal of pharmacology and experimental therapeutics" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1988/02/01 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } [2899843]=> array(43) { ["uid"]=> string(7) "2899843" ["pubdate"]=> string(4) "1988" ["epubdate"]=> string(0) "" ["source"]=> string(15) "NIDA Res Monogr" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Swearengen E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(12) "Swearengen E" ["title"]=> string(50) "Opioid receptor mechanisms in the rat hippocampus." ["sorttitle"]=> string(49) "opioid receptor mechanisms in the rat hippocampus" ["volume"]=> string(2) "82" ["issue"]=> string(0) "" ["pages"]=> string(6) "94-117" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8811762" ["issn"]=> string(9) "1046-9516" ["essn"]=> string(0) "" ["pubtype"]=> array(2) { [0]=> string(15) "Journal Article" [1]=> string(6) "Review" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(1) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "2899843" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1988/01/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1988/01/01 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1988/01/01 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(0) { } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(23) "NIDA research monograph" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1988/01/01 00:00" ["sortfirstauthor"]=> string(9) "Chavkin C" ["vernaculartitle"]=> string(0) "" } [2893261]=> array(43) { ["uid"]=> string(7) "2893261" ["pubdate"]=> string(4) "1986" ["epubdate"]=> string(0) "" ["source"]=> string(15) "NIDA Res Monogr" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Neumaier JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Chavkin C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Chavkin C" ["title"]=> string(70) "Opioid receptor activity in the dentate region of the rat hippocampus." ["sorttitle"]=> string(69) "opioid receptor activity in the dentate region of the rat hippocampus" ["volume"]=> string(2) "75" ["issue"]=> string(0) "" ["pages"]=> string(5) "101-4" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8811762" ["issn"]=> string(9) "1046-9516" ["essn"]=> string(0) "" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "4" ["articleids"]=> array(1) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(7) "2893261" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "1986/01/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "1986/01/01 00:01" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "1986/01/01 00:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(23) "NIDA research monograph" ["elocationid"]=> string(0) "" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "1986/01/01 00:00" ["sortfirstauthor"]=> string(11) "Neumaier JF" ["vernaculartitle"]=> string(0) "" } } }

Show 96 more