https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&query_key=1&WebEnv=MCID_5f36cbfeeb94be22ff69b458&retmode=json
Resource id #563 -- array(2) {
["header"]=>
array(2) {
["type"]=>
string(8) "esummary"
["version"]=>
string(3) "0.3"
}
["result"]=>
array(97) {
["uids"]=>
array(96) {
[0]=>
string(8) "32366949"
[1]=>
string(8) "31994279"
[2]=>
string(8) "31958800"
[3]=>
string(8) "31502538"
[4]=>
string(8) "31003231"
[5]=>
string(8) "30946562"
[6]=>
string(8) "30610191"
[7]=>
string(8) "30083593"
[8]=>
string(8) "29955167"
[9]=>
string(8) "29678909"
[10]=>
string(8) "28748785"
[11]=>
string(8) "28664636"
[12]=>
string(8) "28237815"
[13]=>
string(8) "28087224"
[14]=>
string(8) "27032690"
[15]=>
string(8) "26657954"
[16]=>
string(8) "26289144"
[17]=>
string(8) "25934037"
[18]=>
string(8) "25907441"
[19]=>
string(8) "27331085"
[20]=>
string(8) "25019563"
[21]=>
string(8) "26054767"
[22]=>
string(8) "24231358"
[23]=>
string(8) "24231353"
[24]=>
string(8) "24075973"
[25]=>
string(8) "23843534"
[26]=>
string(8) "23223282"
[27]=>
string(8) "23085473"
[28]=>
string(8) "22961814"
[29]=>
string(8) "22541946"
[30]=>
string(8) "22157861"
[31]=>
string(8) "22018355"
[32]=>
string(8) "21918519"
[33]=>
string(8) "21893657"
[34]=>
string(8) "21835346"
[35]=>
string(8) "21718722"
[36]=>
string(8) "21714816"
[37]=>
string(8) "21620956"
[38]=>
string(8) "21437992"
[39]=>
string(8) "21353664"
[40]=>
string(8) "21182901"
[41]=>
string(8) "21131952"
[42]=>
string(8) "21088040"
[43]=>
string(8) "20843634"
[44]=>
string(8) "20713085"
[45]=>
string(8) "20480149"
[46]=>
string(8) "20172504"
[47]=>
string(8) "19817843"
[48]=>
string(8) "19659573"
[49]=>
string(8) "19524553"
[50]=>
string(8) "19396878"
[51]=>
string(8) "19295158"
[52]=>
string(8) "19049819"
[53]=>
string(8) "18502320"
[54]=>
string(8) "17920665"
[55]=>
string(8) "17631868"
[56]=>
string(8) "17559089"
[57]=>
string(8) "17509084"
[58]=>
string(8) "17467184"
[59]=>
string(8) "17192775"
[60]=>
string(8) "17059838"
[61]=>
string(8) "16917826"
[62]=>
string(8) "16839853"
[63]=>
string(8) "16458260"
[64]=>
string(8) "16298400"
[65]=>
string(8) "16154649"
[66]=>
string(8) "16010284"
[67]=>
string(8) "16005519"
[68]=>
string(8) "15885246"
[69]=>
string(8) "15342998"
[70]=>
string(8) "15064139"
[71]=>
string(8) "14978467"
[72]=>
string(8) "14749205"
[73]=>
string(8) "12957218"
[74]=>
string(8) "12644357"
[75]=>
string(8) "12550744"
[76]=>
string(8) "12486179"
[77]=>
string(8) "12397864"
[78]=>
string(8) "12040062"
[79]=>
string(8) "12022964"
[80]=>
string(8) "11173221"
[81]=>
string(8) "11042358"
[82]=>
string(8) "10889351"
[83]=>
string(8) "10861803"
[84]=>
string(8) "10716199"
[85]=>
string(8) "10578240"
[86]=>
string(8) "10067953"
[87]=>
string(7) "9066990"
[88]=>
string(7) "8914125"
[89]=>
string(7) "8813349"
[90]=>
string(7) "1978741"
[91]=>
string(7) "2557959"
[92]=>
string(7) "2765901"
[93]=>
string(7) "2894454"
[94]=>
string(7) "2899843"
[95]=>
string(7) "2893261"
}
[32366949]=>
array(43) {
["uid"]=>
string(8) "32366949"
["pubdate"]=>
string(10) "2020 May 4"
["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(0) ""
["issue"]=>
string(0) ""
["pages"]=>
string(0) ""
["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(33) "PubMed - as supplied by publisher"
["pubstatus"]=>
string(2) "10"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32366949"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1038/s41380-020-0750-4"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(25) "10.1038/s41380-020-0750-4"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32366949"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32366949"
}
}
["history"]=>
array(6) {
[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(6) "entrez"
["date"]=>
string(16) "2020/05/06 06:00"
}
[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) "2020/05/06 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["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) "2020/05/04 00:00"
["sortfirstauthor"]=>
string(9) "Lesiak AJ"
["vernaculartitle"]=>
string(0) ""
}
[31994279]=>
array(43) {
["uid"]=>
string(8) "31994279"
["pubdate"]=>
string(11) "2020 Jan 29"
["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(0) ""
["issue"]=>
string(0) ""
["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(33) "PubMed - as supplied by publisher"
["pubstatus"]=>
string(2) "10"
["articleids"]=>
array(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31994279"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31994279"
}
}
["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) "entrez"
["date"]=>
string(16) "2020/01/30 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/01/30 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/01/30 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["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) "2020/01/29 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 RG"
["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(19) "PubMed - in process"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31958800"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1038/s41386-020-0616-0"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(25) "10.1038/s41386-020-0616-0"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7235029"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31958800"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31958800"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(44) "pmc-id: PMC7235029;embargo-date: 2021/06/01;"
}
}
["history"]=>
array(7) {
[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(11) "pmc-release"
["date"]=>
string(16) "2021/06/01 00:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/01/21 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/01/21 06:00"
}
[6]=>
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"]=>
string(0) ""
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31502538"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(19) "10.7554/eLife.49041"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(5) "49041"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6739869"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31502538"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31502538"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6739869;"
}
}
["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(2)
["fulljournalname"]=>
string(5) "eLife"
["elocationid"]=>
string(37) "pii: e49041. 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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31003231"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1038/s41386-019-0394-8"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(25) "10.1038/s41386-019-0394-8"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6785029"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31003231"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31003231"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(44) "pmc-id: PMC6785029;embargo-date: 2020/09/01;"
}
}
["history"]=>
array(7) {
[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(11) "pmc-release"
["date"]=>
string(16) "2020/09/01 00:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/04/20 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/03/17 06:00"
}
[6]=>
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(3)
["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(114) "5-HT1B Receptor-Mediated Activation of ERK1/2 Requires Both Gαi/o and β-Arrestin Proteins."
["sorttitle"]=>
string(104) "5 ht sub 1b sub receptor mediated activation of erk1 2 requires both g sub i o sub 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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30946562"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1021/acschemneuro.8b00596"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7217031"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(12) "NIHMS1025299"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30946562"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30946562"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(47) "pmc-id: PMC7217031;manuscript-id: NIHMS1025299;"
}
}
["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(1)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30610191"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1038/s41386-018-0303-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(25) "10.1038/s41386-018-0303-6"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6461910"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30610191"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30610191"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6461910;"
}
}
["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(10)
["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(0) ""
["essn"]=>
string(9) "2373-8057"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(3) "258"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30083593"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1038/s41531-018-0060-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(2) "60"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6072777"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30083593"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30083593"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6072777;"
}
}
["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(7)
["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(11) "2018 Jun 28"
["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(0) ""
["issue"]=>
string(0) ""
["pages"]=>
string(0) ""
["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(33) "PubMed - as supplied by publisher"
["pubstatus"]=>
string(2) "10"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29955167"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1038/s41380-018-0120-7"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(25) "10.1038/s41380-018-0120-7"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6310669"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS967909"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29955167"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29955167"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC6310669;manuscript-id: NIHMS967909;"
}
}
["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) "2018/06/30 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(4)
["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) "2018/06/28 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(158) "Restoration of Physiological Expression of 5-HT6 Receptor into the Primary Cilia of Null Mutant Neurons Lengthens Both Primary Cilia and Dendrites."
["sorttitle"]=>
string(155) "restoration of physiological expression of 5 ht sub 6 sub 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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29678909"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(14) "mol.117.111583"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(22) "10.1124/mol.117.111583"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5987994"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29678909"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29678909"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5987994;"
}
}
["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(3)
["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(52) "Striatal 5-HT1B Receptors and Aggression."
["sorttitle"]=>
string(49) "striatal 5 ht sub 1b sub 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(7) "Comment"
[1]=>
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) "28748785"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-3223(17)31631-1"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.biopsych.2017.06.001"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28748785"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28748785"
}
}
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28664636"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/ejn.13631"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5546988"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS889238"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28664636"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28664636"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5546988;manuscript-id: NIHMS889238;"
}
}
["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(5)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28237815"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0306-4522(17)30107-0"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(34) "10.1016/j.neuroscience.2017.02.024"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5386321"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS854536"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28237815"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28237815"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5386321;manuscript-id: NIHMS854536;"
}
}
["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(6)
["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(90) "5-HT6 receptor blockade regulates primary cilia morphology in striatal neurons."
["sorttitle"]=>
string(87) "5 ht sub 6 sub 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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28087224"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-8993(17)30012-4"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.brainres.2017.01.010"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5392252"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS851079"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28087224"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28087224"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5392252;manuscript-id: NIHMS851079;"
}
}
["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(6)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27032690"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(9) "npp201645"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(19) "10.1038/npp.2016.45"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4946068"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27032690"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27032690"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4946068;"
}
}
["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(4)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26657954"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "npp2015262"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(20) "10.1038/npp.2015.262"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4677145"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26657954"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26657954"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4677145;"
}
}
["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(2)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26289144"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "npp2015253"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(20) "10.1038/npp.2015.253"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4748437"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26289144"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26289144"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(44) "pmc-id: PMC4748437;embargo-date: 2017/03/01;"
}
}
["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(15)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25934037"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0306-4522(15)00387-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(34) "10.1016/j.neuroscience.2015.04.046"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4457577"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS691139"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25934037"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25934037"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4457577;manuscript-id: NIHMS691139;"
}
}
["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(6)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25907441"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0306-4522(15)00373-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(34) "10.1016/j.neuroscience.2015.04.032"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4450084"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS683337"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25907441"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25907441"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4450084;manuscript-id: NIHMS683337;"
}
}
["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(6)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27331085"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.cobeha.2014.09.004"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4912135"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS767353"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27331085"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27331085"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4912135;manuscript-id: NIHMS767353;"
}
}
["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 00:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["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(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25019563"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25019563"
}
}
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26054767"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(9) "000114299"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.2144/000114299"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4467021"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS696260"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26054767"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26054767"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4467021;manuscript-id: NIHMS696260;"
}
}
["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(6)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24231358"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(5) "72117"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(16) "10.1172/JCI72117"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3859392"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24231358"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24231358"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3859392;"
}
}
["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(37)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24231353"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(5) "70395"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(16) "10.1172/JCI70395"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3859405"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24231353"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24231353"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3859405;"
}
}
["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(19)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24075973"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0091-3057(13)00225-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1016/j.pbb.2013.09.009"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3857090"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS527846"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24075973"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24075973"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3857090;manuscript-id: NIHMS527846;"
}
}
["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(4)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23843534"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(11) "33/28/11668"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1523/JNEUROSCI.4783-12.2013"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3724555"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23843534"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23843534"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3724555;"
}
}
["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(35)
["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) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(11) "32/49/17582"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1523/JNEUROSCI.3220-12.2012"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3523715"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS427293"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23223282"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23223282"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3523715;manuscript-id: NIHMS427293;"
}
}
["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(38)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23085473"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-8993(12)01638-1"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.brainres.2012.10.011"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3565082"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS415822"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23085473"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23085473"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3565082;manuscript-id: NIHMS415822;"
}
}
["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(30)
["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(84) "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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22961814"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1002/syn.21608"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3472085"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS407440"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22961814"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22961814"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3472085;manuscript-id: NIHMS407440;"
}
}
["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(15)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22541946"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-3223(12)00301-0"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.biopsych.2012.03.024"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4071622"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS368293"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22541946"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22541946"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4071622;manuscript-id: NIHMS368293;"
}
}
["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(18)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22157861"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "npp2011179"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(20) "10.1038/npp.2011.179"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3238068"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22157861"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22157861"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3238068;"
}
}
["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(17)
["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(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22018355"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-3223(11)00914-0"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.biopsych.2011.09.017"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22018355"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22018355"
}
}
["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"]=>
int(3)
["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(7) "Comment"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21918519"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "npp2011147"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(20) "10.1038/npp.2011.147"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3176578"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21918519"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21918519"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3176578;"
}
}
["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(1)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21893657"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "68/9/892"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(33) "10.1001/archgenpsychiatry.2011.91"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3244836"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS333323"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21893657"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21893657"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3244836;manuscript-id: NIHMS333323;"
}
}
["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(21)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21835346"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0896-6273(11)00515-0"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.neuron.2011.06.011"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3155685"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS307551"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21835346"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21835346"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3155685;manuscript-id: NIHMS307551;"
}
}
["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(112)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21718722"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0166-4328(11)00478-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1016/j.bbr.2011.06.016"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3660851"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS306993"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21718722"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21718722"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3660851;manuscript-id: NIHMS306993;"
}
}
["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(8)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21714816"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1460-9568.2011.07756.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3138869"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS295170"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21714816"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21714816"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3138869;manuscript-id: NIHMS295170;"
}
}
["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(6)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21620956"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0891-0618(11)00037-8"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.jchemneu.2011.05.001"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3137942"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS303131"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21620956"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21620956"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3137942;manuscript-id: NIHMS303131;"
}
}
["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(22)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21437992"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1002/syn.20929"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3149756"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS285203"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21437992"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21437992"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3149756;manuscript-id: NIHMS285203;"
}
}
["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(10)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21353664"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-3223(10)01361-2"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.biopsych.2010.12.029"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3080128"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS262427"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21353664"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21353664"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3080128;manuscript-id: NIHMS262427;"
}
}
["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(23)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21182901"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0306-4522(10)01597-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(34) "10.1016/j.neuroscience.2010.12.019"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3038592"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS260858"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21182901"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21182901"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3038592;manuscript-id: NIHMS260858;"
}
}
["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(9)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21131952"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "nn.2703"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(15) "10.1038/nn.2703"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3058296"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS245934"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21131952"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21131952"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3058296;manuscript-id: NIHMS245934;"
}
}
["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(218)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21088040"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "0269881110388330"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.1177/0269881110388330"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4723119"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS752049"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21088040"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21088040"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4723119;manuscript-id: NIHMS752049;"
}
}
["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(4)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20843634"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0741-8329(10)00109-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/j.alcohol.2010.07.010"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3003941"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS229623"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20843634"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20843634"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3003941;manuscript-id: NIHMS229623;"
}
}
["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(8)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20713085"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0165-0270(10)00451-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.jneumeth.2010.08.009"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2952731"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS230181"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20713085"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20713085"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC2952731;manuscript-id: NIHMS230181;"
}
}
["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(6)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20480149"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1007/s00213-010-1881-0"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3139174"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS203297"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20480149"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20480149"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3139174;manuscript-id: NIHMS203297;"
}
}
["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(39)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20172504"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-3223(10)00003-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.biopsych.2009.12.028"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3112181"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS169918"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20172504"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20172504"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3112181;manuscript-id: NIHMS169918;"
}
}
["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(26)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19817843"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "EJN6933"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1460-9568.2009.06933.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2766620"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS148001"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19817843"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19817843"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC2766620;manuscript-id: NIHMS148001;"
}
}
["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(9)
["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(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19659573"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "JNC6313"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1471-4159.2009.06313.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19659573"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19659573"
}
}
["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"]=>
int(11)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19524553"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-8993(09)01168-8"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.brainres.2009.06.017"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2739002"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS123979"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19524553"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19524553"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC2739002;manuscript-id: NIHMS123979;"
}
}
["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(15)
["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(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19396878"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19396878"
}
}
["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"]=>
int(1)
["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) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "29/11/3529"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1523/JNEUROSCI.6173-08.2009"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2677656"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS103489"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19295158"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19295158"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC2677656;manuscript-id: NIHMS103489;"
}
}
["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(125)
["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(9) "1873-7544"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19049819"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0306-4522(08)01532-7"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(34) "10.1016/j.neuroscience.2008.10.016"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2667128"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(10) "NIHMS94265"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19049819"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19049819"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(45) "pmc-id: PMC2667128;manuscript-id: NIHMS94265;"
}
}
["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(12)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "18502320"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0361-9230(08)00019-1"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(34) "10.1016/j.brainresbull.2008.01.015"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2667131"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(10) "NIHMS85516"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18502320"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18502320"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(45) "pmc-id: PMC2667131;manuscript-id: NIHMS85516;"
}
}
["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(2)
["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(9) "1873-5177"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17920665"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0091-3057(07)00266-3"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1016/j.pbb.2007.08.015"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2322863"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(10) "NIHMS38652"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17920665"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17920665"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(45) "pmc-id: PMC2322863;manuscript-id: NIHMS38652;"
}
}
["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(7)
["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(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17631868"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-3223(07)00149-7"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.biopsych.2007.02.018"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17631868"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17631868"
}
}
["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"]=>
int(11)
["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(9) "1096-9861"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17559089"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17559089"
}
}
["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"]=>
int(11)
["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(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) "17509084"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "EJN5568"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1460-9568.2007.05568.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17509084"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17509084"
}
}
["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"]=>
int(21)
["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(9) "1873-7544"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17467184"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0306-4522(07)00352-1"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(34) "10.1016/j.neuroscience.2007.03.032"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2084465"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(10) "NIHMS22398"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17467184"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17467184"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(45) "pmc-id: PMC2084465;manuscript-id: NIHMS22398;"
}
}
["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(16)
["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(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) "17192775"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "1301284"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(22) "10.1038/sj.npp.1301284"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17192775"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17192775"
}
}
["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"]=>
int(18)
["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(9) "1873-7064"
["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) "17059838"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0028-3908(06)00284-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1016/j.neuropharm.2006.08.013"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17059838"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17059838"
}
}
["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"]=>
int(14)
["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(9) "1096-9861"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16917826"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16917826"
}
}
["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"]=>
int(22)
["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(9) "1873-6823"
["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) "16839853"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0741-8329(06)00073-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/j.alcohol.2006.04.003"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16839853"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16839853"
}
}
["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"]=>
int(18)
["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(9) "1873-2402"
["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) "16458260"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-3223(05)01419-8"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.biopsych.2005.10.019"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16458260"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16458260"
}
}
["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"]=>
int(51)
["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(9) "1873-7064"
["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) "16298400"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0028-3908(05)00360-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1016/j.neuropharm.2005.10.002"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16298400"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16298400"
}
}
["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"]=>
int(7)
["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(9) "1872-7549"
["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) "16154649"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0166-4328(05)00288-3"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1016/j.bbr.2005.07.021"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16154649"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16154649"
}
}
["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"]=>
int(40)
["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(9) "1473-1150"
["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) "16010284"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "6500322"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(22) "10.1038/sj.tpj.6500322"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16010284"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16010284"
}
}
["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"]=>
int(15)
["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(9) "1879-016X"
["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(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "16005519"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0163-7258(05)00097-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1016/j.pharmthera.2005.05.001"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16005519"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16005519"
}
}
["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"]=>
int(42)
["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(9) "1873-507X"
["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) "15885246"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0031-9384(05)00054-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/j.physbeh.2005.02.016"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15885246"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15885246"
}
}
["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"]=>
int(11)
["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(9) "1533-4112"
["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) "15342998"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(24) "00124509-200409000-00005"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1097/00124509-200409000-00005"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15342998"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15342998"
}
}
["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"]=>
int(5)
["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(9) "1872-6240"
["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) "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"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15064139"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15064139"
}
}
["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"]=>
int(19)
["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(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "14978467"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "14978467"
}
}
["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(9) "1522-1555"
["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) "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"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "14749205"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "14749205"
}
}
["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"]=>
int(4)
["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(9) "1873-5177"
["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) "12957218"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(17) "S0091305703001527"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/s0091-3057(03)00152-7"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12957218"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12957218"
}
}
["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"]=>
int(10)
["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(9) "1873-2402"
["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) "12644357"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(17) "S0006322302015032"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/s0006-3223(02)01503-2"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12644357"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12644357"
}
}
["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"]=>
int(4)
["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(9) "1471-4973"
["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) "12550744"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(17) "S1471489202000127"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/s1471-4892(02)00012-7"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12550744"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12550744"
}
}
["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"]=>
int(1)
["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(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "12486179"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(11) "22/24/10856"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6758423"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12486179"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12486179"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6758423;"
}
}
["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(39)
["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(9) "2472-2448"
["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) "12397864"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12397864"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["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"]=>
int(21)
["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(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "12040062"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(8) "20026403"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "22/11/4550"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6758774"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12040062"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12040062"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6758774;"
}
}
["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(40)
["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(9) "1873-2402"
["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) "12022964"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(17) "S0006322301013713"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/s0006-3223(01)01371-3"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12022964"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "12022964"
}
}
["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"]=>
int(23)
["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(9) "1873-6300"
["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) "11173221"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0891-0618(00)00092-2"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/s0891-0618(00)00092-2"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "11173221"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "11173221"
}
}
["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"]=>
int(29)
["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(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "11042358"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(17) "S0169328X00001819"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2847791"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "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) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "11042358"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "11042358"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC2847791;manuscript-id: NIHMS187655;"
}
}
["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(10)
["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(9) "1872-7972"
["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) "10889351"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(17) "S0304394000012258"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/s0304-3940(00)01225-8"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10889351"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10889351"
}
}
["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"]=>
int(2)
["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(9) "1097-4547"
["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) "10861803"
}
[1]=>
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"
}
[2]=>
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"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10861803"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10861803"
}
}
["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"]=>
int(15)
["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(9) "1473-558X"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10716199"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10716199"
}
}
["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"]=>
int(12)
["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(9) "1476-5578"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10578240"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10578240"
}
}
["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"]=>
int(5)
["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(9) "1539-736X"
["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(4) {
[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"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10067953"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10067953"
}
}
["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"]=>
int(17)
["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(9) "1873-2402"
["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(7) "9066990"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0006-3223(96)00114-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/S0006-3223(96)00114-X"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "9066990"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "9066990"
}
}
["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"]=>
int(14)
["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(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(7) "8914125"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(17) "S0893133X96000954"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1016/S0893-133X(96)00095-4"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "8914125"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "8914125"
}
}
["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"]=>
int(30)
["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(9) "1872-6240"
["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(7) "8813349"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "0006-8993(96)00178-3"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/0006-8993(96)00178-3"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "8813349"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "8813349"
}
}
["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"]=>
int(11)
["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(9) "1873-7544"
["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(7) "1978741"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "0306-4522(90)90190-F"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/0306-4522(90)90190-f"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "1978741"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "1978741"
}
}
["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"]=>
int(14)
["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(9) "1872-6240"
["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(7) "2557959"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "0006-8993(89)90316-8"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/0006-8993(89)90316-8"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "2557959"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "2557959"
}
}
["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"]=>
int(2)
["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(9) "1872-6240"
["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(7) "2765901"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "0006-8993(89)91164-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/0006-8993(89)91164-5"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "2765901"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "2765901"
}
}
["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"]=>
int(3)
["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(9) "1521-0103"
["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) "2894454"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "2894454"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["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"]=>
int(15)
["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(3) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(7) "2899843"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "2899843"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["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"]=>
int(1)
["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(3) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(7) "2893261"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "2893261"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["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) ""
}
}
}
Publications
The following publications were retrieved from PubMed:
The paraventricular thalamus is a critical mediator of top-down control of cue-motivated behavior in rats.
Campus P, Covelo IR, Kim Y, Parsegian A, Kuhn BN, Lopez SA, Neumaier JF, Ferguson SM, Solberg Woods LC, Sarter M, Flagel SB.
Elife. 2019 Sep 10; (8)
