faculty

James Alvarez

jalvarez@fredhutch.org
Associate Professor

Fred Hutch

Cancer Biology

Cell Signaling & Cell/Environment Interactions

Genetics, Genomics & Evolution

Breast cancer dormancy and recurrence

Faculty Contact Information

Building: Arnold Room: M5-C800 Box: M5-C800 Phone: 206-667-6348

Research Summary

We are a diverse and welcoming group of scientists committed to understanding the cellular and molecular basis of breast cancer recurrence. We take a multidisciplinary approach to this problem, with a focus on identifying the unique biological properties of dormant residual breast cancer cells, which are the reservoir for tumor relapse. The ultimate goal of our research is the discovery of therapies that can prevent tumor recurrence.

DEI Statement

I am committed to increasing diversity in the sciences through mentoring scientists from populations that have historically been excluded from and underrepresented in science. I know from my own training that having a mentor who recognizes your potential, encourages your scientific interests, and promotes your professional development is essential for success in academic science. My hope is that I can mentor trainees from underrepresented groups who will become leaders in the biomedical sciences.

Training Summary

HHMI Gilliam Fellowship One-year Mentor Training
Duke University Office of Research Mentoring Culturally Aware Mentor Training

https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&query_key=1&WebEnv=MCID_616a6ab0641cb53df3283a58&retmode=json
Resource id #596 -- array(2) { ["header"]=> array(2) { ["type"]=> string(8) "esummary" ["version"]=> string(3) "0.3" } ["result"]=> array(26) { ["uids"]=> array(25) { [0]=> string(8) "34294755" [1]=> string(8) "33603168" [2]=> string(8) "33147463" [3]=> string(8) "33024122" [4]=> string(8) "32691018" [5]=> string(8) "31988496" [6]=> string(8) "30990165" [7]=> string(8) "30902832" [8]=> string(8) "30148456" [9]=> string(8) "29330285" [10]=> string(8) "25239452" [11]=> string(8) "24786206" [12]=> string(8) "23770012" [13]=> string(8) "23028142" [14]=> string(8) "20849614" [15]=> string(8) "19094238" [16]=> string(8) "23641147" [17]=> string(8) "17097555" [18]=> string(8) "16954476" [19]=> string(8) "16634641" [20]=> string(8) "16540667" [21]=> string(8) "16187797" [22]=> string(8) "15958548" [23]=> string(8) "15539936" [24]=> string(8) "15498775" } [34294755]=> array(43) { ["uid"]=> string(8) "34294755" ["pubdate"]=> string(11) "2021 Jul 22" ["epubdate"]=> string(11) "2021 Jul 22" ["source"]=> string(7) "Sci Rep" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(9) "Newcomb R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Dean E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "McKinney BJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Alvarez JV" ["title"]=> string(86) "Context-dependent effects of whole-genome duplication during mammary tumor recurrence." ["sorttitle"]=> string(85) "context dependent effects of whole genome duplication during mammary tumor recurrence" ["volume"]=> string(2) "11" ["issue"]=> string(1) "1" ["pages"]=> string(5) "14932" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101563288" ["issn"]=> string(0) "" ["essn"]=> string(9) "2045-2322" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(19) "PubMed - in process" ["pubstatus"]=> string(1) "3" ["articleids"]=> array(7) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "34294755" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(26) "10.1038/s41598-021-94332-z" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(26) "10.1038/s41598-021-94332-z" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8298634" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "34294755" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "34294755" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC8298634;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2021/02/16 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2021/07/06 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/07/23 06:09" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/07/24 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/07/24 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(18) "Scientific reports" ["elocationid"]=> string(31) "doi: 10.1038/s41598-021-94332-z" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/07/22 00:00" ["sortfirstauthor"]=> string(9) "Newcomb R" ["vernaculartitle"]=> string(0) "" } [33603168]=> array(43) { ["uid"]=> string(8) "33603168" ["pubdate"]=> string(8) "2021 Mar" ["epubdate"]=> string(11) "2021 Feb 18" ["source"]=> string(8) "Oncogene" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(6) "Lin CC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Yang WH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Lin YT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Tang X" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(7) "Chen PH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Ding CC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(5) "Qu DC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(6) "Chi JT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(6) "Chi JT" ["title"]=> string(106) "DDR2 upregulation confers ferroptosis susceptibility of recurrent breast tumors through the Hippo pathway." ["sorttitle"]=> string(105) "ddr2 upregulation confers ferroptosis susceptibility of recurrent breast tumors through the hippo pathway" ["volume"]=> string(2) "40" ["issue"]=> string(2) "11" ["pages"]=> string(9) "2018-2034" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8711562" ["issn"]=> string(9) "0950-9232" ["essn"]=> string(9) "1476-5594" ["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) "33603168" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(26) "10.1038/s41388-021-01676-x" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(26) "10.1038/s41388-021-01676-x" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7988308" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1682346" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "33603168" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "33603168" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC7988308;manuscript-id: NIHMS1682346;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/05/27 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2021/01/22 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2021/01/18 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/02/20 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/10/15 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/02/19 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(4) ["fulljournalname"]=> string(8) "Oncogene" ["elocationid"]=> string(31) "doi: 10.1038/s41388-021-01676-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) "2021/03/01 00:00" ["sortfirstauthor"]=> string(6) "Lin CC" ["vernaculartitle"]=> string(0) "" } [33147463]=> array(43) { ["uid"]=> string(8) "33147463" ["pubdate"]=> string(10) "2020 Nov 3" ["epubdate"]=> string(0) "" ["source"]=> string(8) "Cell Rep" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(7) "Mabe NW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Garcia NMG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Wolery SE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Newcomb R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(13) "Meingasner RC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Vilona BA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(6) "Lupo R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(6) "Lin CC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(6) "Chi JT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Alvarez JV" ["title"]=> string(87) "G9a Promotes Breast Cancer Recurrence through Repression of a Pro-inflammatory Program." ["sorttitle"]=> string(86) "g9a promotes breast cancer recurrence through repression of a pro inflammatory program" ["volume"]=> string(2) "33" ["issue"]=> string(1) "5" ["pages"]=> string(6) "108341" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101573691" ["issn"]=> string(0) "" ["essn"]=> string(9) "2211-1247" ["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) "33147463" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S2211-1247(20)31330-9" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1016/j.celrep.2020.108341" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7656293" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1643887" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "33147463" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "33147463" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC7656293;manuscript-id: NIHMS1643887;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/11/12 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2020/03/30 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/10/09 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/11/04 20:07" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/11/05 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/05/08 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(1) ["fulljournalname"]=> string(12) "Cell reports" ["elocationid"]=> string(33) "doi: 10.1016/j.celrep.2020.108341" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/11/03 00:00" ["sortfirstauthor"]=> string(7) "Mabe NW" ["vernaculartitle"]=> string(0) "" } [33024122]=> array(43) { ["uid"]=> string(8) "33024122" ["pubdate"]=> string(10) "2020 Oct 6" ["epubdate"]=> string(10) "2020 Oct 6" ["source"]=> string(10) "Nat Commun" ["authors"]=> array(16) { [0]=> array(3) { ["name"]=> string(8) "Walens A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(5) "Lin J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Damrauer JS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "McKinney B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Lupo R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Newcomb R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(6) "Fox DB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(7) "Mabe NW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Gresham J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(7) "Sheng Z" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(9) "Sibley AB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(14) "De Buysscher T" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [12]=> array(3) { ["name"]=> string(8) "Kelkar H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [13]=> array(3) { ["name"]=> string(14) "Mieczkowski PA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [14]=> array(3) { ["name"]=> string(7) "Owzar K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [15]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Alvarez JV" ["title"]=> string(97) "Adaptation and selection shape clonal evolution of tumors during residual disease and recurrence." ["sorttitle"]=> string(96) "adaptation and selection shape clonal evolution of tumors during residual disease and recurrence" ["volume"]=> string(2) "11" ["issue"]=> string(1) "1" ["pages"]=> string(4) "5017" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101528555" ["issn"]=> string(0) "" ["essn"]=> string(9) "2041-1723" ["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) "33024122" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(26) "10.1038/s41467-020-18730-z" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(26) "10.1038/s41467-020-18730-z" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7539014" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "33024122" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "33024122" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7539014;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/07/29 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/09/09 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/10/07 05:44" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/10/08 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/10/30 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(2) ["fulljournalname"]=> string(21) "Nature communications" ["elocationid"]=> string(31) "doi: 10.1038/s41467-020-18730-z" ["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) "2020/10/06 00:00" ["sortfirstauthor"]=> string(8) "Walens A" ["vernaculartitle"]=> string(0) "" } [32691018]=> array(43) { ["uid"]=> string(8) "32691018" ["pubdate"]=> string(8) "2020 Apr" ["epubdate"]=> string(11) "2020 Apr 20" ["source"]=> string(9) "Nat Metab" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(6) "Fox DB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Garcia NMG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "McKinney BJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Lupo R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Noteware LC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Newcomb R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(5) "Liu J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Locasale JW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Hirschey MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Alvarez JV" ["title"]=> string(118) "NRF2 activation promotes the recurrence of dormant tumour cells through regulation of redox and nucleotide metabolism." ["sorttitle"]=> string(117) "nrf2 activation promotes the recurrence of dormant tumour cells through regulation of redox and nucleotide metabolism" ["volume"]=> string(1) "2" ["issue"]=> string(1) "4" ["pages"]=> string(7) "318-334" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101736592" ["issn"]=> string(0) "" ["essn"]=> string(9) "2522-5812" ["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) "32691018" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s42255-020-0191-z" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7370851" } [3]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1576600" } [4]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s42255-020-0191-z" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "32691018" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "32691018" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC7370851;manuscript-id: NIHMS1576600;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/07/22 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/07/22 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/01/07 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(12) ["fulljournalname"]=> string(17) "Nature metabolism" ["elocationid"]=> string(30) "doi: 10.1038/s42255-020-0191-z" ["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) "2020/04/01 00:00" ["sortfirstauthor"]=> string(6) "Fox DB" ["vernaculartitle"]=> string(0) "" } [31988496]=> array(43) { ["uid"]=> string(8) "31988496" ["pubdate"]=> string(8) "2020 Jul" ["epubdate"]=> string(11) "2020 Jan 27" ["source"]=> string(17) "Cell Death Differ" ["authors"]=> array(12) { [0]=> array(3) { ["name"]=> string(6) "Lin CC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Mabe NW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Lin YT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Yang WH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Tang X" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(6) "Hong L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(5) "Sun T" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(7) "Force J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(8) "Marks JR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(6) "Yao TP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(6) "Chi JT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(6) "Chi JT" ["title"]=> string(110) "RIPK3 upregulation confers robust proliferation and collateral cystine-dependence on breast cancer recurrence." ["sorttitle"]=> string(109) "ripk3 upregulation confers robust proliferation and collateral cystine dependence on breast cancer recurrence" ["volume"]=> string(2) "27" ["issue"]=> string(1) "7" ["pages"]=> string(9) "2234-2247" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9437445" ["issn"]=> string(9) "1350-9047" ["essn"]=> string(9) "1476-5403" ["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) "31988496" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41418-020-0499-y" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s41418-020-0499-y" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7308288" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "31988496" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "31988496" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7308288;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/03/19 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/01/14 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2020/01/13 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/01/29 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/09/23 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/01/29 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(10) ["fulljournalname"]=> string(30) "Cell death and differentiation" ["elocationid"]=> string(30) "doi: 10.1038/s41418-020-0499-y" ["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) "2020/07/01 00:00" ["sortfirstauthor"]=> string(6) "Lin CC" ["vernaculartitle"]=> string(0) "" } [30990165]=> array(43) { ["uid"]=> string(8) "30990165" ["pubdate"]=> string(11) "2019 Apr 16" ["epubdate"]=> string(11) "2019 Apr 16" ["source"]=> string(5) "Elife" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(8) "Walens A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "DiMarco AV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Lupo R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Kroger BR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Damrauer JS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Alvarez JV" ["title"]=> string(89) "CCL5 promotes breast cancer recurrence through macrophage recruitment in residual tumors." ["sorttitle"]=> string(88) "ccl5 promotes breast cancer recurrence through macrophage recruitment in residual tumors" ["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) "30990165" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(19) "10.7554/eLife.43653" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(5) "43653" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6478432" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "30990165" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "30990165" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6478432;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2018/11/14 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2019/03/27 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/04/17 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/02/29 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/04/17 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(41) ["fulljournalname"]=> string(5) "eLife" ["elocationid"]=> string(37) "pii: e43653. doi: 10.7554/eLife.43653" ["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) "2019/04/16 00:00" ["sortfirstauthor"]=> string(8) "Walens A" ["vernaculartitle"]=> string(0) "" } [30902832]=> array(43) { ["uid"]=> string(8) "30902832" ["pubdate"]=> string(8) "2019 Jul" ["epubdate"]=> string(11) "2019 Mar 22" ["source"]=> string(14) "Mol Cancer Res" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(10) "Madonna MC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Fox DB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Crouch BT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(5) "Lee J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(5) "Zhu C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Martinez AF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Ramanujam N" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Ramanujam N" ["title"]=> string(126) "Optical Imaging of Glucose Uptake and Mitochondrial Membrane Potential to Characterize Her2 Breast Tumor Metabolic Phenotypes." ["sorttitle"]=> string(125) "optical imaging of glucose uptake and mitochondrial membrane potential to characterize her2 breast tumor metabolic phenotypes" ["volume"]=> string(2) "17" ["issue"]=> string(1) "7" ["pages"]=> string(9) "1545-1555" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101150042" ["issn"]=> string(9) "1541-7786" ["essn"]=> string(9) "1557-3125" ["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) "30902832" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "1541-7786.MCR-18-0618" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1158/1541-7786.MCR-18-0618" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6610750" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1525507" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "30902832" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "30902832" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC6610750;manuscript-id: NIHMS1525507;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2018/06/11 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2018/10/09 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2019/03/19 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/03/25 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/05/02 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/03/24 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(6) ["fulljournalname"]=> string(31) "Molecular cancer research : MCR" ["elocationid"]=> string(34) "doi: 10.1158/1541-7786.MCR-18-0618" ["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) "2019/07/01 00:00" ["sortfirstauthor"]=> string(10) "Madonna MC" ["vernaculartitle"]=> string(0) "" } [30148456]=> array(43) { ["uid"]=> string(8) "30148456" ["pubdate"]=> string(10) "2018 Oct 1" ["epubdate"]=> string(11) "2018 Aug 27" ["source"]=> string(13) "J Clin Invest" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(7) "Mabe NW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Fox DB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Lupo R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Decker AE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Phelps SN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Thompson JW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Alvarez JV" ["title"]=> string(99) "Epigenetic silencing of tumor suppressor Par-4 promotes chemoresistance in recurrent breast cancer." ["sorttitle"]=> string(98) "epigenetic silencing of tumor suppressor par 4 promotes chemoresistance in recurrent breast cancer" ["volume"]=> string(3) "128" ["issue"]=> string(2) "10" ["pages"]=> string(9) "4413-4428" ["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) "30148456" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(5) "99481" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(16) "10.1172/JCI99481" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6159989" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "30148456" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "30148456" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6159989;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2018/01/03 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2018/07/13 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/08/28 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/09/12 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/08/28 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(14) ["fulljournalname"]=> string(37) "The Journal of clinical investigation" ["elocationid"]=> string(21) "doi: 10.1172/JCI99481" ["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) "2018/10/01 00:00" ["sortfirstauthor"]=> string(7) "Mabe NW" ["vernaculartitle"]=> string(0) "" } [29330285]=> array(43) { ["uid"]=> string(8) "29330285" ["pubdate"]=> string(8) "2018 Apr" ["epubdate"]=> string(11) "2018 Jan 12" ["source"]=> string(14) "Mol Cancer Res" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(11) "Damrauer JS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Phelps SN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(14) "Amuchastegui K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Lupo R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(7) "Mabe NW" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Walens A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Kroger BR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Alvarez JV" ["title"]=> string(110) "Foxo-dependent Par-4 Upregulation Prevents Long-term Survival of Residual Cells Following PI3K-Akt Inhibition." ["sorttitle"]=> string(109) "foxo dependent par 4 upregulation prevents long term survival of residual cells following pi3k akt inhibition" ["volume"]=> string(2) "16" ["issue"]=> string(1) "4" ["pages"]=> string(7) "599-609" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101150042" ["issn"]=> string(9) "1541-7786" ["essn"]=> string(9) "1557-3125" ["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) "29330285" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "1541-7786.MCR-17-0492" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1158/1541-7786.MCR-17-0492" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5882527" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS931204" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "29330285" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "29330285" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC5882527;manuscript-id: NIHMS931204;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2017/09/08 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2017/11/17 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2017/12/21 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/01/14 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/07/30 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/01/14 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(7) ["fulljournalname"]=> string(31) "Molecular cancer research : MCR" ["elocationid"]=> string(34) "doi: 10.1158/1541-7786.MCR-17-0492" ["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) "2018/04/01 00:00" ["sortfirstauthor"]=> string(11) "Damrauer JS" ["vernaculartitle"]=> string(0) "" } [25239452]=> array(43) { ["uid"]=> string(8) "25239452" ["pubdate"]=> string(11) "2014 Dec 15" ["epubdate"]=> string(11) "2014 Sep 19" ["source"]=> string(10) "Cancer Res" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Belka GK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Pan TC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Chen CC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(13) "Blankemeyer E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Alavi A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(7) "Karp JS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Chodosh LA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Chodosh LA" ["title"]=> string(70) "Oncogene pathway activation in mammary tumors dictates FDG-PET uptake." ["sorttitle"]=> string(69) "oncogene pathway activation in mammary tumors dictates fdg pet uptake" ["volume"]=> string(2) "74" ["issue"]=> string(2) "24" ["pages"]=> string(7) "7583-98" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(8) "2984705R" ["issn"]=> string(9) "0008-5472" ["essn"]=> string(9) "1538-7445" ["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) "25239452" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "0008-5472.CAN-14-1235" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1158/0008-5472.CAN-14-1235" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4342047" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS630087" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "25239452" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "25239452" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4342047;manuscript-id: NIHMS630087;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2014/09/21 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2014/09/23 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2015/02/11 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(27) ["fulljournalname"]=> string(15) "Cancer research" ["elocationid"]=> string(34) "doi: 10.1158/0008-5472.CAN-14-1235" ["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) "2014/12/15 00:00" ["sortfirstauthor"]=> string(10) "Alvarez JV" ["vernaculartitle"]=> string(0) "" } [24786206]=> array(43) { ["uid"]=> string(8) "24786206" ["pubdate"]=> string(8) "2014 Jul" ["epubdate"]=> string(11) "2014 Apr 30" ["source"]=> string(13) "Cancer Discov" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(6) "Feng Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Pan TC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "Pant DK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(14) "Chakrabarti KR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Ruth JR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Chodosh LA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Chodosh LA" ["title"]=> string(72) "SPSB1 promotes breast cancer recurrence by potentiating c-MET signaling." ["sorttitle"]=> string(71) "spsb1 promotes breast cancer recurrence by potentiating c met signaling" ["volume"]=> string(1) "4" ["issue"]=> string(1) "7" ["pages"]=> string(7) "790-803" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101561693" ["issn"]=> string(9) "2159-8274" ["essn"]=> string(9) "2159-8290" ["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) "24786206" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(20) "2159-8290.CD-13-0548" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1158/2159-8290.CD-13-0548" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4121738" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS592042" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "24786206" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "24786206" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4121738;manuscript-id: NIHMS592042;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2014/05/03 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2014/05/03 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2015/02/25 06:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(34) "Cancer Discov. 2014 Jul;4(7):760-1" ["reftype"]=> string(10) "Comment in" ["pmid"]=> int(25002612) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(18) ["fulljournalname"]=> string(16) "Cancer discovery" ["elocationid"]=> string(33) "doi: 10.1158/2159-8290.CD-13-0548" ["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) "2014/07/01 00:00" ["sortfirstauthor"]=> string(6) "Feng Y" ["vernaculartitle"]=> string(0) "" } [23770012]=> array(43) { ["uid"]=> string(8) "23770012" ["pubdate"]=> string(10) "2013 Jul 8" ["epubdate"]=> string(11) "2013 Jun 13" ["source"]=> string(11) "Cancer Cell" ["authors"]=> array(11) { [0]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Pan TC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Ruth J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Feng Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Zhou A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(6) "Pant D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Grimley JS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Wandless TJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Demichele A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(28) "I-SPY 1 TRIAL Investigators." ["authtype"]=> string(14) "CollectiveName" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(10) "Chodosh LA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Chodosh LA" ["title"]=> string(112) "Par-4 downregulation promotes breast cancer recurrence by preventing multinucleation following targeted therapy." ["sorttitle"]=> string(111) "par 4 downregulation promotes breast cancer recurrence by preventing multinucleation following targeted therapy" ["volume"]=> string(2) "24" ["issue"]=> string(1) "1" ["pages"]=> string(5) "30-44" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101130617" ["issn"]=> string(9) "1535-6108" ["essn"]=> string(9) "1878-3686" ["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) "23770012" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S1535-6108(13)00234-1" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.ccr.2013.05.007" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3808871" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS494593" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "23770012" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "23770012" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3808871;manuscript-id: NIHMS494593;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2012/10/02 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2013/03/11 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2013/05/09 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2013/06/18 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2013/06/19 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/09/17 06:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(33) "Breast Cancer Res. 2013;15(5):314" ["reftype"]=> string(10) "Comment in" ["pmid"]=> int(24164776) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(41) ["fulljournalname"]=> string(11) "Cancer cell" ["elocationid"]=> string(30) "doi: 10.1016/j.ccr.2013.05.007" ["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) "2013/07/08 00:00" ["sortfirstauthor"]=> string(10) "Alvarez JV" ["vernaculartitle"]=> string(0) "" } [23028142]=> array(43) { ["uid"]=> string(8) "23028142" ["pubdate"]=> string(10) "2012 Oct 1" ["epubdate"]=> string(0) "" ["source"]=> string(9) "Genes Dev" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(7) "Chen CC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Stairs DB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Boxer RB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Belka GK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Horseman ND" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Chodosh LA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Chodosh LA" ["title"]=> string(151) "Autocrine prolactin induced by the Pten-Akt pathway is required for lactation initiation and provides a direct link between the Akt and Stat5 pathways." ["sorttitle"]=> string(150) "autocrine prolactin induced by the pten akt pathway is required for lactation initiation and provides a direct link between the akt and stat5 pathways" ["volume"]=> string(2) "26" ["issue"]=> string(2) "19" ["pages"]=> string(7) "2154-68" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8711660" ["issn"]=> string(9) "0890-9369" ["essn"]=> string(9) "1549-5477" ["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) "23028142" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "26/19/2154" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(22) "10.1101/gad.197343.112" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3465737" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "23028142" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "23028142" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3465737;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/10/03 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/10/03 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/12/10 06:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(36) "Genes Dev. 2012 Oct 15;26(20):2253-8" ["reftype"]=> string(10) "Comment in" ["pmid"]=> int(23070811) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(38) ["fulljournalname"]=> string(19) "Genes & development" ["elocationid"]=> string(27) "doi: 10.1101/gad.197343.112" ["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) "2012/10/01 00:00" ["sortfirstauthor"]=> string(7) "Chen CC" ["vernaculartitle"]=> string(0) "" } [20849614]=> array(43) { ["uid"]=> string(8) "20849614" ["pubdate"]=> string(4) "2010" ["epubdate"]=> string(11) "2010 Sep 17" ["source"]=> string(17) "Breast Cancer Res" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(7) "Chen CC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Boxer RB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Stairs DB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(15) "Portocarrero CP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Horton RH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Birnbaum MJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Chodosh LA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Chodosh LA" ["title"]=> string(65) "Akt is required for Stat5 activation and mammary differentiation." ["sorttitle"]=> string(64) "akt is required for stat5 activation and mammary differentiation" ["volume"]=> string(2) "12" ["issue"]=> string(1) "5" ["pages"]=> string(3) "R72" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "100927353" ["issn"]=> string(9) "1465-5411" ["essn"]=> string(9) "1465-542X" ["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) "20849614" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "bcr2640" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(15) "10.1186/bcr2640" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3096959" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "20849614" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "20849614" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3096959;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2010/01/25 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2010/09/17 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/09/21 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/09/21 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/02/13 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(19) ["fulljournalname"]=> string(28) "Breast cancer research : BCR" ["elocationid"]=> string(20) "doi: 10.1186/bcr2640" ["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) "2010/01/01 00:00" ["sortfirstauthor"]=> string(7) "Chen CC" ["vernaculartitle"]=> string(0) "" } [19094238]=> array(43) { ["uid"]=> string(8) "19094238" ["pubdate"]=> string(4) "2008" ["epubdate"]=> string(11) "2008 Dec 18" ["source"]=> string(11) "Genome Biol" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(5) "Liu Z" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(6) "Wang M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Bonney ME" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(7) "Chen CC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "D'Cruz C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(6) "Pan TC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(10) "Tadesse MG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(10) "Chodosh LA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Chodosh LA" ["title"]=> string(109) "Singular value decomposition-based regression identifies activation of endogenous signaling pathways in vivo." ["sorttitle"]=> string(108) "singular value decomposition based regression identifies activation of endogenous signaling pathways in vivo" ["volume"]=> string(1) "9" ["issue"]=> string(2) "12" ["pages"]=> string(4) "R180" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "100960660" ["issn"]=> string(9) "1474-7596" ["essn"]=> string(9) "1474-760X" ["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) "19094238" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "gb-2008-9-12-r180" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1186/gb-2008-9-12-r180" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2646284" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "19094238" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "19094238" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC2646284;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2008/10/23 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2008/12/18 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2008/12/20 09:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2008/12/20 09:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2009/03/06 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(9) ["fulljournalname"]=> string(14) "Genome biology" ["elocationid"]=> string(30) "doi: 10.1186/gb-2008-9-12-r180" ["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(5) "Liu Z" ["vernaculartitle"]=> string(0) "" } [23641147]=> array(43) { ["uid"]=> string(8) "23641147" ["pubdate"]=> string(4) "2007" ["epubdate"]=> string(11) "2007 Nov 11" ["source"]=> string(19) "Transl Oncogenomics" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Mukherjee N" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(13) "Chakravarti A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Robe P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Zhai G" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Chakladar A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Loeffler J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(7) "Black P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(8) "Frank DA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(8) "Frank DA" ["title"]=> string(81) "A STAT3 Gene Expression Signature in Gliomas is Associated with a Poor Prognosis." ["sorttitle"]=> string(78) "stat3 gene expression signature in gliomas is associated with a poor prognosis" ["volume"]=> string(1) "2" ["issue"]=> string(0) "" ["pages"]=> string(6) "99-105" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101276050" ["issn"]=> string(0) "" ["essn"]=> string(9) "1177-2727" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(6) "PubMed" ["pubstatus"]=> string(3) "257" ["articleids"]=> array(6) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "23641147" } [1]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3634710" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.4137/tog.s1903" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "23641147" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "23641147" } [5]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3634710;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2013/05/04 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2007/01/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2007/01/01 00:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(14) ["fulljournalname"]=> string(26) "Translational oncogenomics" ["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) "2007/11/11 00:00" ["sortfirstauthor"]=> string(10) "Alvarez JV" ["vernaculartitle"]=> string(0) "" } [17097555]=> array(43) { ["uid"]=> string(8) "17097555" ["pubdate"]=> string(8) "2006 Nov" ["epubdate"]=> string(0) "" ["source"]=> string(11) "Cancer Cell" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Perez D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Chodosh LA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Chodosh LA" ["title"]=> string(73) "mILC-ing the mouse mammary gland: A model for invasive lobular carcinoma." ["sorttitle"]=> string(71) "milc ing the mouse mammary gland a model for invasive lobular carcinoma" ["volume"]=> string(2) "10" ["issue"]=> string(1) "5" ["pages"]=> string(5) "347-9" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101130617" ["issn"]=> string(9) "1535-6108" ["essn"]=> string(9) "1878-3686" ["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) "17097555" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S1535-6108(06)00323-0" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.ccr.2006.10.016" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "17097555" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "17097555" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/11/14 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2007/01/05 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/11/14 09:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(34) "Cancer Cell. 2006 Nov;10(5):437-49" ["reftype"]=> string(10) "Comment on" ["pmid"]=> int(17097565) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(4) ["fulljournalname"]=> string(11) "Cancer cell" ["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) "2006/11/01 00:00" ["sortfirstauthor"]=> string(10) "Alvarez JV" ["vernaculartitle"]=> string(0) "" } [16954476]=> array(43) { ["uid"]=> string(8) "16954476" ["pubdate"]=> string(10) "2006 Sep 6" ["epubdate"]=> string(0) "" ["source"]=> string(18) "J Natl Cancer Inst" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(7) "Ishii Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pirkmaier A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Frank DA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Keselman I" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(12) "Logothetis D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Mandeli J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(12) "O'Connell MJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(8) "Waxman S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Germain D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Germain D" ["title"]=> string(87) "Cyclin D1 overexpression and response to bortezomib treatment in a breast cancer model." ["sorttitle"]=> string(86) "cyclin d1 overexpression and response to bortezomib treatment in a breast cancer model" ["volume"]=> string(2) "98" ["issue"]=> string(2) "17" ["pages"]=> string(7) "1238-47" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7503089" ["issn"]=> string(9) "0027-8874" ["essn"]=> string(9) "1460-2105" ["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) "16954476" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "98/17/1238" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(19) "10.1093/jnci/djj334" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "16954476" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "16954476" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/09/07 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/09/20 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/09/07 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(14) ["fulljournalname"]=> string(40) "Journal of the National Cancer Institute" ["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) "2006/09/06 00:00" ["sortfirstauthor"]=> string(7) "Ishii Y" ["vernaculartitle"]=> string(0) "" } [16634641]=> array(43) { ["uid"]=> string(8) "16634641" ["pubdate"]=> string(10) "2006 May 2" ["epubdate"]=> string(0) "" ["source"]=> string(12) "Biochemistry" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(9) "Liddle FJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Poli V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Frank DA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(8) "Frank DA" ["title"]=> string(122) "Tyrosine phosphorylation is required for functional activation of disulfide-containing constitutively active STAT mutants." ["sorttitle"]=> string(121) "tyrosine phosphorylation is required for functional activation of disulfide containing constitutively active stat mutants" ["volume"]=> string(2) "45" ["issue"]=> string(2) "17" ["pages"]=> string(8) "5599-605" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0370623" ["issn"]=> string(9) "0006-2960" ["essn"]=> string(9) "1520-4995" ["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) "16634641" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1021/bi0525674" } [2]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "16634641" } [3]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "16634641" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/04/26 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/06/10 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/04/26 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(26) ["fulljournalname"]=> string(12) "Biochemistry" ["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) "2006/05/02 00:00" ["sortfirstauthor"]=> string(9) "Liddle FJ" ["vernaculartitle"]=> string(0) "" } [16540667]=> array(43) { ["uid"]=> string(8) "16540667" ["pubdate"]=> string(11) "2006 Mar 15" ["epubdate"]=> string(0) "" ["source"]=> string(10) "Cancer Res" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Greulich H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Sellers WR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Meyerson M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "Frank DA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(8) "Frank DA" ["title"]=> string(180) "Signal transducer and activator of transcription 3 is required for the oncogenic effects of non-small-cell lung cancer-associated mutations of the epidermal growth factor receptor." ["sorttitle"]=> string(179) "signal transducer and activator of transcription 3 is required for the oncogenic effects of non small cell lung cancer associated mutations of the epidermal growth factor receptor" ["volume"]=> string(2) "66" ["issue"]=> string(1) "6" ["pages"]=> string(6) "3162-8" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(8) "2984705R" ["issn"]=> string(9) "0008-5472" ["essn"]=> string(9) "1538-7445" ["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) "16540667" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(9) "66/6/3162" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1158/0008-5472.CAN-05-3757" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "16540667" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "16540667" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/03/17 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/05/04 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/03/17 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(85) ["fulljournalname"]=> string(15) "Cancer 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) "2006/03/15 00:00" ["sortfirstauthor"]=> string(10) "Alvarez JV" ["vernaculartitle"]=> string(0) "" } [16187797]=> array(43) { ["uid"]=> string(8) "16187797" ["pubdate"]=> string(8) "2005 Nov" ["epubdate"]=> string(10) "2005 Oct 4" ["source"]=> string(8) "PLoS Med" ["authors"]=> array(11) { [0]=> array(3) { ["name"]=> string(10) "Greulich H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Chen TH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Feng W" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Jänne PA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(12) "Zappaterra M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Bulmer SE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(8) "Frank DA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(7) "Hahn WC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(10) "Sellers WR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(10) "Meyerson M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Meyerson M" ["title"]=> string(76) "Oncogenic transformation by inhibitor-sensitive and -resistant EGFR mutants." ["sorttitle"]=> string(74) "oncogenic transformation by inhibitor sensitive and resistant egfr mutants" ["volume"]=> string(1) "2" ["issue"]=> string(2) "11" ["pages"]=> string(4) "e313" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101231360" ["issn"]=> string(9) "1549-1277" ["essn"]=> string(9) "1549-1676" ["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) "16187797" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(17) "05-PLME-RA-0222R1" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1371/journal.pmed.0020313" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC1240052" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "16187797" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "16187797" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC1240052;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2005/05/10 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2005/07/30 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2005/09/29 09:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2006/09/06 09:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2005/09/29 09:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(28) "PLoS Med. 2006 Apr;3(4):e206" ["reftype"]=> string(10) "Comment in" ["pmid"]=> int(16626260) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(237) ["fulljournalname"]=> string(13) "PLoS medicine" ["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) "2005/11/01 00:00" ["sortfirstauthor"]=> string(10) "Greulich H" ["vernaculartitle"]=> string(0) "" } [15958548]=> array(43) { ["uid"]=> string(8) "15958548" ["pubdate"]=> string(11) "2005 Jun 15" ["epubdate"]=> string(0) "" ["source"]=> string(10) "Cancer Res" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Febbo PG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Ramaswamy S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Loda M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Richardson A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Frank DA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(8) "Frank DA" ["title"]=> string(118) "Identification of a genetic signature of activated signal transducer and activator of transcription 3 in human tumors." ["sorttitle"]=> string(117) "identification of a genetic signature of activated signal transducer and activator of transcription 3 in human tumors" ["volume"]=> string(2) "65" ["issue"]=> string(2) "12" ["pages"]=> string(7) "5054-62" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(8) "2984705R" ["issn"]=> string(9) "0008-5472" ["essn"]=> string(9) "1538-7445" ["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) "15958548" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "65/12/5054" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1158/0008-5472.CAN-04-4281" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "15958548" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "15958548" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2005/06/17 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2005/08/09 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2005/06/17 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(71) ["fulljournalname"]=> string(15) "Cancer 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) "2005/06/15 00:00" ["sortfirstauthor"]=> string(10) "Alvarez JV" ["vernaculartitle"]=> string(0) "" } [15539936]=> array(43) { ["uid"]=> string(8) "15539936" ["pubdate"]=> string(8) "2004 Nov" ["epubdate"]=> string(11) "2004 Nov 22" ["source"]=> string(16) "Cancer Biol Ther" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Frank DA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(8) "Frank DA" ["title"]=> string(98) "Genome-wide analysis of STAT target genes: elucidating the mechanism of STAT-mediated oncogenesis." ["sorttitle"]=> string(96) "genome wide analysis of stat target genes elucidating the mechanism of stat mediated oncogenesis" ["volume"]=> string(1) "3" ["issue"]=> string(2) "11" ["pages"]=> string(7) "1045-50" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101137842" ["issn"]=> string(9) "1538-4047" ["essn"]=> string(9) "1555-8576" ["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) "15539936" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(4) "1162" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(21) "10.4161/cbt.3.11.1172" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "15539936" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "15539936" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2004/11/13 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2005/07/22 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2004/11/13 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(34) ["fulljournalname"]=> string(24) "Cancer biology & therapy" ["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) "2004/11/01 00:00" ["sortfirstauthor"]=> string(10) "Alvarez JV" ["vernaculartitle"]=> string(0) "" } [15498775]=> array(43) { ["uid"]=> string(8) "15498775" ["pubdate"]=> string(11) "2004 Dec 24" ["epubdate"]=> string(11) "2004 Oct 20" ["source"]=> string(11) "J Biol Chem" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(9) "Nelson EA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Walker SR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Alvarez JV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Frank DA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(8) "Frank DA" ["title"]=> string(93) "Isolation of unique STAT5 targets by chromatin immunoprecipitation-based gene identification." ["sorttitle"]=> string(92) "isolation of unique stat5 targets by chromatin immunoprecipitation based gene identification" ["volume"]=> string(3) "279" ["issue"]=> string(2) "52" ["pages"]=> string(8) "54724-30" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(8) "2985121R" ["issn"]=> string(9) "0021-9258" ["essn"]=> string(9) "1083-351X" ["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) "15498775" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0021-9258(19)63239-4" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(22) "10.1074/jbc.M408464200" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "15498775" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "15498775" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2004/10/23 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2005/03/15 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2004/10/23 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(47) ["fulljournalname"]=> string(35) "The Journal of biological chemistry" ["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) "2004/12/24 00:00" ["sortfirstauthor"]=> string(9) "Nelson EA" ["vernaculartitle"]=> string(0) "" } } }

Publications

The following publications were retrieved from PubMed:

Context-dependent effects of whole-genome duplication during mammary tumor recurrence.

Newcomb R, Dean E, McKinney BJ, Alvarez JV.

Sci Rep. 2021 Jul 22; 1(11)14932

DDR2 upregulation confers ferroptosis susceptibility of recurrent breast tumors through the Hippo pathway.

Lin CC, Yang WH, Lin YT, Tang X, Chen PH, Ding CC, Qu DC, Alvarez JV, Chi JT.

Oncogene. 2021 Mar; 11(40)2018-2034

G9a Promotes Breast Cancer Recurrence through Repression of a Pro-inflammatory Program.

Mabe NW, Garcia NMG, Wolery SE, Newcomb R, Meingasner RC, Vilona BA, Lupo R, Lin CC, Chi JT, Alvarez JV.

Cell Rep. 2020 Nov 3; 5(33)108341

Adaptation and selection shape clonal evolution of tumors during residual disease and recurrence.

Walens A, Lin J, Damrauer JS, McKinney B, Lupo R, Newcomb R, Fox DB, Mabe NW, Gresham J, Sheng Z, Sibley AB, De Buysscher T, Kelkar H, Mieczkowski PA, Owzar K, Alvarez JV.

Nat Commun. 2020 Oct 6; 1(11)5017

NRF2 activation promotes the recurrence of dormant tumour cells through regulation of redox and nucleotide metabolism.

Fox DB, Garcia NMG, McKinney BJ, Lupo R, Noteware LC, Newcomb R, Liu J, Locasale JW, Hirschey MD, Alvarez JV.

Nat Metab. 2020 Apr; 4(2)318-334



PubMed Collection Link

Accepting Students For:

Rotation, Autumn
Rotation, Spring
Rotation, Summer
Rotation, Winter
Permanent

Lab Information

Location: Fred Hutch
Building: Arnold Building
Room: M5-A807