faculty
Lucas Sullivan
lucas@fredhutch.org
Assistant Professor
Fred Hutch
Cancer Biology
Cell Signaling & Cell/Environment Interactions
Developmental Biology, Stem Cells & Aging
Understanding metabolic constraints of cell proliferation
Faculty Contact Information
Building: Hutchinson
Room: C3-159
Box: C3-168
Phone: 206-667-7826
Research Summary
My lab broadly seeks to understand how metabolism is used to support cell function. One example is to determine the metabolic pathways particularly required for cancer growth and progression, with a goal to identify new targets for cancer therapy. We use mass spectrometry, isotope tracing, metabolomics, and cancer models to understand several themes in metabolism including the role of metabolic pathways in supporting cell proliferation, the network effects of physiologically relevant perturbations to cell metabolism, and discovery of new metabolic products and pathways.
DEI Statement
Every person has a unique history, leading to a diverse combination of personality, talents, interests, and goals. My job as a mentor is to create a safe and inclusive environment where all lab members can grow into the best scientist they can be. I work with each trainee as an individual to build from their strengths and address their weaknesses to help them reach their goals. I believe that incorporating people of diverse backgrounds, heritages, and viewpoints makes for a rigorous scientific environment that benefits the whole lab, both culturally and scientifically.
Training Summary
2019 – Center for Improvement of Mentored Experiences in Research (CIMER) Diversity/Mentorship Training
2020 – CIMER – Culturally Aware Mentoring
2021 – Bias Mitigation Education: Grounding & Commitment
https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&query_key=1&WebEnv=MCID_614dffa0487a5d45c6308093&retmode=json
Resource id #563 -- array(2) {
["header"]=>
array(2) {
["type"]=>
string(8) "esummary"
["version"]=>
string(3) "0.3"
}
["result"]=>
array(29) {
["uids"]=>
array(28) {
[0]=>
string(8) "33986176"
[1]=>
string(8) "33811729"
[2]=>
string(8) "33382985"
[3]=>
string(8) "33139341"
[4]=>
string(8) "32973183"
[5]=>
string(8) "32470392"
[6]=>
string(8) "32348730"
[7]=>
string(8) "30193108"
[8]=>
string(8) "29941931"
[9]=>
string(8) "29227471"
[10]=>
string(8) "28820875"
[11]=>
string(8) "27658530"
[12]=>
string(8) "27746050"
[13]=>
string(8) "27434767"
[14]=>
string(8) "27110680"
[15]=>
string(8) "27058668"
[16]=>
string(8) "26919427"
[17]=>
string(8) "26880201"
[18]=>
string(8) "26853747"
[19]=>
string(8) "26232225"
[20]=>
string(8) "25671107"
[21]=>
string(8) "25347702"
[22]=>
string(8) "24857658"
[23]=>
string(8) "24843020"
[24]=>
string(8) "24335489"
[25]=>
string(8) "23747014"
[26]=>
string(8) "23020852"
[27]=>
string(8) "22101431"
}
[33986176]=>
array(43) {
["uid"]=>
string(8) "33986176"
["pubdate"]=>
string(11) "2021 May 14"
["epubdate"]=>
string(0) ""
["source"]=>
string(7) "Science"
["authors"]=>
array(28) {
[0]=>
array(3) {
["name"]=>
string(11) "Rossmann MP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(5) "Hoi K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Chan V"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Abraham BJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(6) "Yang S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Mullahoo J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(15) "Papanastasiou M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(6) "Wang Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(6) "Elia I"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Perlin JR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(11) "Hagedorn EJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(8) "Hetzel S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(9) "Weigert R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(6) "Vyas S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(6) "Nag PP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(9) "Warren CR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(11) "Dorjsuren B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[18]=>
array(3) {
["name"]=>
string(8) "Greig EC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[19]=>
array(3) {
["name"]=>
string(8) "Adatto I"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[20]=>
array(3) {
["name"]=>
string(8) "Cowan CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[21]=>
array(3) {
["name"]=>
string(12) "Schreiber SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[22]=>
array(3) {
["name"]=>
string(8) "Young RA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[23]=>
array(3) {
["name"]=>
string(10) "Meissner A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[24]=>
array(3) {
["name"]=>
string(9) "Haigis MC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[25]=>
array(3) {
["name"]=>
string(8) "Hekimi S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[26]=>
array(3) {
["name"]=>
string(7) "Carr SA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[27]=>
array(3) {
["name"]=>
string(6) "Zon LI"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(6) "Zon LI"
["title"]=>
string(98) "Cell-specific transcriptional control of mitochondrial metabolism by TIF1γ drives erythropoiesis."
["sorttitle"]=>
string(95) "cell specific transcriptional control of mitochondrial metabolism by tif1 drives erythropoiesis"
["volume"]=>
string(3) "372"
["issue"]=>
string(4) "6543"
["pages"]=>
string(7) "716-721"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0404511"
["issn"]=>
string(9) "0036-8075"
["essn"]=>
string(9) "1095-9203"
["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) "33986176"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(12) "372/6543/716"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(23) "10.1126/science.aaz2740"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC8177078"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(12) "NIHMS1707328"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "33986176"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "33986176"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(47) "pmc-id: PMC8177078;manuscript-id: NIHMS1707328;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/08/26 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2021/03/29 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2021/05/14 05:56"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2021/05/15 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2021/05/22 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(24) "Science (New York, N.Y.)"
["elocationid"]=>
string(28) "doi: 10.1126/science.aaz2740"
["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) "2021/05/14 00:00"
["sortfirstauthor"]=>
string(11) "Rossmann MP"
["vernaculartitle"]=>
string(0) ""
}
[33811729]=>
array(43) {
["uid"]=>
string(8) "33811729"
["pubdate"]=>
string(10) "2021 Apr 3"
["epubdate"]=>
string(10) "2021 Apr 3"
["source"]=>
string(6) "FEBS J"
["authors"]=>
array(17) {
[0]=>
array(3) {
["name"]=>
string(10) "Keibler MA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Dong W"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Korthauer KD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Hosios AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Moon SJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(5) "Liu N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Abbott KL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Arevalo OD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(4) "Ho K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(5) "Lee J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(9) "Phanse AS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(11) "Kelleher JK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(12) "Iliopoulos O"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(9) "Coloff JL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(16) "Stephanopoulos G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(16) "Stephanopoulos G"
["title"]=>
string(96) "Differential substrate use in EGF- and oncogenic KRAS-stimulated human mammary epithelial cells."
["sorttitle"]=>
string(94) "differential substrate use in egf and oncogenic kras stimulated human mammary epithelial cells"
["volume"]=>
string(0) ""
["issue"]=>
string(0) ""
["pages"]=>
string(0) ""
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101229646"
["issn"]=>
string(9) "1742-464X"
["essn"]=>
string(9) "1742-4658"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(33) "PubMed - as supplied by publisher"
["pubstatus"]=>
string(2) "10"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "33811729"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(18) "10.1111/febs.15858"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "33811729"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "33811729"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2021/03/01 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/06/06 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2021/03/31 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2021/04/04 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2021/04/04 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2021/04/03 12:16"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(16) "The FEBS journal"
["elocationid"]=>
string(23) "doi: 10.1111/febs.15858"
["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) "2021/04/03 00:00"
["sortfirstauthor"]=>
string(10) "Keibler MA"
["vernaculartitle"]=>
string(0) ""
}
[33382985]=>
array(43) {
["uid"]=>
string(8) "33382985"
["pubdate"]=>
string(11) "2021 Feb 18"
["epubdate"]=>
string(11) "2020 Dec 30"
["source"]=>
string(8) "Mol Cell"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(8) "Luengo A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Li Z"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Gui DY"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Zagorulya M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(5) "Do BT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Ferreira R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Naamati A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(5) "Ali A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Lewis CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Thomas CJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Spranger S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(11) "Matheson NJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(16) "Vander Heiden MG"
["title"]=>
string(79) "Increased demand for NAD+ relative to ATP drives aerobic glycolysis."
["sorttitle"]=>
string(74) "increased demand for nad sup sup relative to atp drives aerobic glycolysis"
["volume"]=>
string(2) "81"
["issue"]=>
string(1) "4"
["pages"]=>
string(10) "691-707.e6"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9802571"
["issn"]=>
string(9) "1097-2765"
["essn"]=>
string(9) "1097-4164"
["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) "33382985"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S1097-2765(20)30904-7"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.molcel.2020.12.012"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC8315838"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(12) "NIHMS1718062"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "33382985"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "33382985"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(47) "pmc-id: PMC8315838;manuscript-id: NIHMS1718062;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/04/22 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2020/10/30 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/12/02 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2021/01/01 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2021/03/03 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/12/31 20:09"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(35) "Mol Cell. 2021 Feb 18;81(4):642-644"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(33606971)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(13)
["fulljournalname"]=>
string(14) "Molecular cell"
["elocationid"]=>
string(33) "doi: 10.1016/j.molcel.2020.12.012"
["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) "2021/02/18 00:00"
["sortfirstauthor"]=>
string(8) "Luengo A"
["vernaculartitle"]=>
string(0) ""
}
[33139341]=>
array(43) {
["uid"]=>
string(8) "33139341"
["pubdate"]=>
string(8) "2020 Nov"
["epubdate"]=>
string(0) ""
["source"]=>
string(13) "Cancer Discov"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Davidsen K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Sullivan LB"
["title"]=>
string(107) "Free Asparagine or Die: Cancer Cells Require Proteasomal Protein Breakdown to Survive Asparagine Depletion."
["sorttitle"]=>
string(105) "free asparagine or die cancer cells require proteasomal protein breakdown to survive asparagine depletion"
["volume"]=>
string(2) "10"
["issue"]=>
string(2) "11"
["pages"]=>
string(9) "1632-1634"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101561693"
["issn"]=>
string(9) "2159-8274"
["essn"]=>
string(9) "2159-8290"
["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) "33139341"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "10/11/1632"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1158/2159-8290.CD-20-1251"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "33139341"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "33139341"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/11/03 05:38"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/11/04 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2021/06/04 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(40) "Cancer Discov. 2020 Nov;10(11):1690-1705"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(32703769)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(16) "Cancer discovery"
["elocationid"]=>
string(33) "doi: 10.1158/2159-8290.CD-20-1251"
["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) "2020/11/01 00:00"
["sortfirstauthor"]=>
string(10) "Davidsen K"
["vernaculartitle"]=>
string(0) ""
}
[32973183]=>
array(43) {
["uid"]=>
string(8) "32973183"
["pubdate"]=>
string(11) "2020 Sep 24"
["epubdate"]=>
string(11) "2020 Sep 24"
["source"]=>
string(10) "Nat Commun"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(4) "Li Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Ivica NA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Dong T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(15) "Papageorgiou DP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(4) "He Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Brown DR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Kleyman M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(4) "Hu G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(7) "Chen WW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(13) "Del Rosario A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Hammond PT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(6) "Chen J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(6) "Chen J"
["title"]=>
string(81) "MFSD7C switches mitochondrial ATP synthesis to thermogenesis in response to heme."
["sorttitle"]=>
string(80) "mfsd7c switches mitochondrial atp synthesis to thermogenesis in response to heme"
["volume"]=>
string(2) "11"
["issue"]=>
string(1) "1"
["pages"]=>
string(4) "4837"
["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) "32973183"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1038/s41467-020-18607-1"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(26) "10.1038/s41467-020-18607-1"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7515921"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32973183"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32973183"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC7515921;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/08/23 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/08/31 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/09/25 05:55"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/09/26 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/10/21 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/s41467-020-18607-1"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/09/24 00:00"
["sortfirstauthor"]=>
string(4) "Li Y"
["vernaculartitle"]=>
string(0) ""
}
[32470392]=>
array(43) {
["uid"]=>
string(8) "32470392"
["pubdate"]=>
string(11) "2020 Jul 13"
["epubdate"]=>
string(11) "2020 May 28"
["source"]=>
string(11) "Cancer Cell"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(8) "Augert A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(13) "Mathsyaraja H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Ibrahim AH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Freie B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Geuenich MJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Cheng PF"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(13) "Alibeckoff SP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(4) "Wu N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Hiatt JB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(7) "Basom R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(8) "Gazdar A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(11) "Eisenman RN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(12) "MacPherson D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "MacPherson D"
["title"]=>
string(85) "MAX Functions as a Tumor Suppressor and Rewires Metabolism in Small Cell Lung Cancer."
["sorttitle"]=>
string(84) "max functions as a tumor suppressor and rewires metabolism in small cell lung cancer"
["volume"]=>
string(2) "38"
["issue"]=>
string(1) "1"
["pages"]=>
string(9) "97-114.e7"
["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) "32470392"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S1535-6108(20)30215-4"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(27) "10.1016/j.ccell.2020.04.016"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7363581"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(12) "NIHMS1605707"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32470392"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32470392"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(47) "pmc-id: PMC7363581;manuscript-id: NIHMS1605707;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/10/21 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2020/02/14 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/04/22 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/05/30 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2021/03/09 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/05/30 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(3)
["fulljournalname"]=>
string(11) "Cancer cell"
["elocationid"]=>
string(32) "doi: 10.1016/j.ccell.2020.04.016"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/07/13 00:00"
["sortfirstauthor"]=>
string(8) "Augert A"
["vernaculartitle"]=>
string(0) ""
}
[32348730]=>
array(43) {
["uid"]=>
string(8) "32348730"
["pubdate"]=>
string(8) "2020 May"
["epubdate"]=>
string(10) "2020 Mar 6"
["source"]=>
string(13) "Trends Cancer"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(6) "Quon E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Hart ML"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Sullivan LB"
["title"]=>
string(51) "Redox Debt Leads to Metabolic Bankruptcy in Tumors."
["sorttitle"]=>
string(50) "redox debt leads to metabolic bankruptcy in tumors"
["volume"]=>
string(1) "6"
["issue"]=>
string(1) "5"
["pages"]=>
string(7) "359-361"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101665956"
["issn"]=>
string(9) "2405-8033"
["essn"]=>
string(9) "2405-8025"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
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) "32348730"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S2405-8033(20)30073-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.trecan.2020.02.012"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32348730"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32348730"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/02/18 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/02/19 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/04/30 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/04/30 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2021/06/16 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(40) "Cell Rep. 2020 Feb 11;30(6):1798-1810.e4"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(32049011)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(16) "Trends in cancer"
["elocationid"]=>
string(33) "doi: 10.1016/j.trecan.2020.02.012"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/05/01 00:00"
["sortfirstauthor"]=>
string(6) "Quon E"
["vernaculartitle"]=>
string(0) ""
}
[30193108]=>
array(43) {
["uid"]=>
string(8) "30193108"
["pubdate"]=>
string(10) "2018 Sep 6"
["epubdate"]=>
string(0) ""
["source"]=>
string(4) "Cell"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Sullivan LB"
["title"]=>
string(60) "Metabolic Frugality Marks Cancer Cells for Immune Targeting."
["sorttitle"]=>
string(59) "metabolic frugality marks cancer cells for immune targeting"
["volume"]=>
string(3) "174"
["issue"]=>
string(1) "6"
["pages"]=>
string(9) "1344-1346"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413066"
["issn"]=>
string(9) "0092-8674"
["essn"]=>
string(9) "1097-4172"
["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) "30193108"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0092-8674(18)31039-0"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.cell.2018.08.023"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30193108"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30193108"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/09/08 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/09/08 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/05/14 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(37) "Cell. 2018 Sep 6;174(6):1559-1570.e22"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(30100185)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(3)
["fulljournalname"]=>
string(4) "Cell"
["elocationid"]=>
string(31) "doi: 10.1016/j.cell.2018.08.023"
["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) "2018/09/06 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[29941931]=>
array(43) {
["uid"]=>
string(8) "29941931"
["pubdate"]=>
string(8) "2018 Jul"
["epubdate"]=>
string(11) "2018 Jun 25"
["source"]=>
string(13) "Nat Cell Biol"
["authors"]=>
array(11) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Luengo A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Danai LV"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Bush LN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Diehl FF"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Hosios AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(6) "Lau AN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Elmiligy S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Malstrom S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Lewis CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(16) "Vander Heiden MG"
["title"]=>
string(66) "Aspartate is an endogenous metabolic limitation for tumour growth."
["sorttitle"]=>
string(65) "aspartate is an endogenous metabolic limitation for tumour growth"
["volume"]=>
string(2) "20"
["issue"]=>
string(1) "7"
["pages"]=>
string(7) "782-788"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "100890575"
["issn"]=>
string(9) "1465-7392"
["essn"]=>
string(9) "1476-4679"
["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) "29941931"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1038/s41556-018-0125-0"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(25) "10.1038/s41556-018-0125-0"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6051729"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS969303"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29941931"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29941931"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC6051729;manuscript-id: NIHMS969303;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2018/02/15 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2018/05/18 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/06/27 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/04/10 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/06/27 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(37) "Nat Cell Biol. 2018 Jul;20(7):738-739"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(29941932)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(80)
["fulljournalname"]=>
string(19) "Nature cell biology"
["elocationid"]=>
string(30) "doi: 10.1038/s41556-018-0125-0"
["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) "2018/07/01 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[29227471]=>
array(43) {
["uid"]=>
string(8) "29227471"
["pubdate"]=>
string(8) "2018 Feb"
["epubdate"]=>
string(11) "2017 Dec 11"
["source"]=>
string(13) "Nat Chem Biol"
["authors"]=>
array(10) {
[0]=>
array(3) {
["name"]=>
string(11) "McLellan CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Vincent BM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Solis NV"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Lancaster AK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Hartland CL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(11) "Youngsaye W"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Filler SG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(11) "Whitesell L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(11) "Lindquist S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Lindquist S"
["title"]=>
string(83) "Inhibiting mitochondrial phosphate transport as an unexploited antifungal strategy."
["sorttitle"]=>
string(82) "inhibiting mitochondrial phosphate transport as an unexploited antifungal strategy"
["volume"]=>
string(2) "14"
["issue"]=>
string(1) "2"
["pages"]=>
string(7) "135-141"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101231976"
["issn"]=>
string(9) "1552-4450"
["essn"]=>
string(9) "1552-4469"
["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) "29227471"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(13) "nchembio.2534"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(21) "10.1038/nchembio.2534"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5771894"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS916444"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29227471"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29227471"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5771894;manuscript-id: NIHMS916444;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/06/01 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/10/27 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/12/12 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/05/06 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/12/12 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(23) "Nature chemical biology"
["elocationid"]=>
string(26) "doi: 10.1038/nchembio.2534"
["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) "2018/02/01 00:00"
["sortfirstauthor"]=>
string(11) "McLellan CA"
["vernaculartitle"]=>
string(0) ""
}
[28820875]=>
array(43) {
["uid"]=>
string(8) "28820875"
["pubdate"]=>
string(11) "2017 Aug 18"
["epubdate"]=>
string(0) ""
["source"]=>
string(13) "Nat Chem Biol"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Sullivan LB"
["title"]=>
string(54) "Extracellular vesicles: Taking metabolism on the road."
["sorttitle"]=>
string(52) "extracellular vesicles taking metabolism on the road"
["volume"]=>
string(2) "13"
["issue"]=>
string(1) "9"
["pages"]=>
string(7) "924-925"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101231976"
["issn"]=>
string(9) "1552-4450"
["essn"]=>
string(9) "1552-4469"
["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) "28820875"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(13) "nchembio.2455"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(21) "10.1038/nchembio.2455"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28820875"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28820875"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/08/19 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/08/19 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/09/20 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(37) "Nat Chem Biol. 2017 Sep;13(9):951-955"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(28671681)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(3)
["fulljournalname"]=>
string(23) "Nature chemical biology"
["elocationid"]=>
string(26) "doi: 10.1038/nchembio.2455"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/08/18 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[27658530]=>
array(43) {
["uid"]=>
string(8) "27658530"
["pubdate"]=>
string(8) "2016 Nov"
["epubdate"]=>
string(11) "2016 Sep 23"
["source"]=>
string(14) "Nat Rev Cancer"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Gui DY"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(16) "Vander Heiden MG"
["title"]=>
string(88) "Altered metabolite levels in cancer: implications for tumour biology and cancer therapy."
["sorttitle"]=>
string(86) "altered metabolite levels in cancer implications for tumour biology and cancer therapy"
["volume"]=>
string(2) "16"
["issue"]=>
string(2) "11"
["pages"]=>
string(7) "680-693"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101124168"
["issn"]=>
string(9) "1474-175X"
["essn"]=>
string(9) "1474-1768"
["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) "27658530"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(11) "nrc.2016.85"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(19) "10.1038/nrc.2016.85"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27658530"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27658530"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/10/25 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/05/17 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/09/24 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(97)
["fulljournalname"]=>
string(22) "Nature reviews. Cancer"
["elocationid"]=>
string(24) "doi: 10.1038/nrc.2016.85"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/11/01 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[27746050]=>
array(43) {
["uid"]=>
string(8) "27746050"
["pubdate"]=>
string(10) "2016 Nov 8"
["epubdate"]=>
string(11) "2016 Oct 13"
["source"]=>
string(10) "Cell Metab"
["authors"]=>
array(10) {
[0]=>
array(3) {
["name"]=>
string(6) "Gui DY"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Luengo A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Hosios AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Bush LN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Gitego N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(11) "Davidson SM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(11) "Freinkman E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Thomas CJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(16) "Vander Heiden MG"
["title"]=>
string(145) "Environment Dictates Dependence on Mitochondrial Complex I for NAD+ and Aspartate Production and Determines Cancer Cell Sensitivity to Metformin."
["sorttitle"]=>
string(143) "environment dictates dependence on mitochondrial complex i for nad and aspartate production and determines cancer cell sensitivity to metformin"
["volume"]=>
string(2) "24"
["issue"]=>
string(1) "5"
["pages"]=>
string(7) "716-727"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101233170"
["issn"]=>
string(9) "1550-4131"
["essn"]=>
string(9) "1932-7420"
["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) "27746050"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S1550-4131(16)30484-3"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.cmet.2016.09.006"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5102768"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS817830"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27746050"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27746050"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5102768;manuscript-id: NIHMS817830;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/08/24 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2016/07/26 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/09/14 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/10/18 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/06/27 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/10/18 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(117)
["fulljournalname"]=>
string(15) "Cell metabolism"
["elocationid"]=>
string(31) "doi: 10.1016/j.cmet.2016.09.006"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/11/08 00:00"
["sortfirstauthor"]=>
string(6) "Gui DY"
["vernaculartitle"]=>
string(0) ""
}
[27434767]=>
array(43) {
["uid"]=>
string(8) "27434767"
["pubdate"]=>
string(11) "2016 Jul 19"
["epubdate"]=>
string(0) ""
["source"]=>
string(13) "Nat Chem Biol"
["authors"]=>
array(32) {
[0]=>
array(3) {
["name"]=>
string(9) "Pacold ME"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(13) "Brimacombe KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Chan SH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Rohde JM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Lewis CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Swier LJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(11) "Possemato R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(7) "Chen WW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Fiske BP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(5) "Cho S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(11) "Freinkman E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(8) "Birsoy K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(6) "Abu MR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(8) "Shaul YD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(6) "Liu CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(6) "Zhou M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(6) "Koh MJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[18]=>
array(3) {
["name"]=>
string(7) "Chung H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[19]=>
array(3) {
["name"]=>
string(11) "Davidson SM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[20]=>
array(3) {
["name"]=>
string(8) "Luengo A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[21]=>
array(3) {
["name"]=>
string(7) "Wang AQ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[22]=>
array(3) {
["name"]=>
string(4) "Xu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[23]=>
array(3) {
["name"]=>
string(8) "Yasgar A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[24]=>
array(3) {
["name"]=>
string(5) "Liu L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[25]=>
array(3) {
["name"]=>
string(5) "Rai G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[26]=>
array(3) {
["name"]=>
string(11) "Westover KD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[27]=>
array(3) {
["name"]=>
string(9) "Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[28]=>
array(3) {
["name"]=>
string(6) "Shen M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[29]=>
array(3) {
["name"]=>
string(7) "Gray NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[30]=>
array(3) {
["name"]=>
string(8) "Boxer MB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[31]=>
array(3) {
["name"]=>
string(11) "Sabatini DM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Sabatini DM"
["title"]=>
string(97) "Corrigendum: A PHGDH inhibitor reveals coordination of serine synthesis and one-carbon unit fate."
["sorttitle"]=>
string(95) "corrigendum a phgdh inhibitor reveals coordination of serine synthesis and one carbon unit fate"
["volume"]=>
string(2) "12"
["issue"]=>
string(1) "8"
["pages"]=>
string(3) "656"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101231976"
["issn"]=>
string(9) "1552-4450"
["essn"]=>
string(9) "1552-4469"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(17) "Published Erratum"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27434767"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "nchembio0816-656"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.1038/nchembio0816-656"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27434767"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27434767"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/07/20 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/07/21 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/07/21 06:01"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(36) "Nat Chem Biol. 2016 Jun;12 (6):452-8"
["reftype"]=>
string(11) "Erratum for"
["pmid"]=>
int(27110680)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(23) "Nature chemical biology"
["elocationid"]=>
string(29) "doi: 10.1038/nchembio0816-656"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/07/19 00:00"
["sortfirstauthor"]=>
string(9) "Pacold ME"
["vernaculartitle"]=>
string(0) ""
}
[27110680]=>
array(43) {
["uid"]=>
string(8) "27110680"
["pubdate"]=>
string(8) "2016 Jun"
["epubdate"]=>
string(11) "2016 Apr 25"
["source"]=>
string(13) "Nat Chem Biol"
["authors"]=>
array(32) {
[0]=>
array(3) {
["name"]=>
string(9) "Pacold ME"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(13) "Brimacombe KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Chan SH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Rohde JM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Lewis CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Swier LJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(11) "Possemato R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(7) "Chen WW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Fiske BP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(5) "Cho S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(11) "Freinkman E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(8) "Birsoy K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(14) "Abu-Remaileh M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(8) "Shaul YD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(6) "Liu CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(6) "Zhou M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(6) "Koh MJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[18]=>
array(3) {
["name"]=>
string(7) "Chung H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[19]=>
array(3) {
["name"]=>
string(11) "Davidson SM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[20]=>
array(3) {
["name"]=>
string(8) "Luengo A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[21]=>
array(3) {
["name"]=>
string(7) "Wang AQ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[22]=>
array(3) {
["name"]=>
string(4) "Xu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[23]=>
array(3) {
["name"]=>
string(8) "Yasgar A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[24]=>
array(3) {
["name"]=>
string(5) "Liu L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[25]=>
array(3) {
["name"]=>
string(5) "Rai G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[26]=>
array(3) {
["name"]=>
string(11) "Westover KD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[27]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[28]=>
array(3) {
["name"]=>
string(6) "Shen M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[29]=>
array(3) {
["name"]=>
string(7) "Gray NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[30]=>
array(3) {
["name"]=>
string(8) "Boxer MB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[31]=>
array(3) {
["name"]=>
string(11) "Sabatini DM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Sabatini DM"
["title"]=>
string(84) "A PHGDH inhibitor reveals coordination of serine synthesis and one-carbon unit fate."
["sorttitle"]=>
string(81) "phgdh inhibitor reveals coordination of serine synthesis and one carbon unit fate"
["volume"]=>
string(2) "12"
["issue"]=>
string(1) "6"
["pages"]=>
string(5) "452-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101231976"
["issn"]=>
string(9) "1552-4450"
["essn"]=>
string(9) "1552-4469"
["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) "27110680"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(13) "nchembio.2070"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(21) "10.1038/nchembio.2070"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4871733"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS772725"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27110680"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27110680"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4871733;manuscript-id: NIHMS772725;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/12/16 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/03/24 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/04/26 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/04/26 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/05/04 06:00"
}
}
["references"]=>
array(2) {
[0]=>
array(4) {
["refsource"]=>
string(39) "Nat Chem Biol. 2016 May 18;12(6):389-90"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(27191646)
["note"]=>
string(0) ""
}
[1]=>
array(4) {
["refsource"]=>
string(37) "Nat Chem Biol. 2016 Jul 19;12 (8):656"
["reftype"]=>
string(10) "Erratum in"
["pmid"]=>
int(27434767)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(143)
["fulljournalname"]=>
string(23) "Nature chemical biology"
["elocationid"]=>
string(26) "doi: 10.1038/nchembio.2070"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/06/01 00:00"
["sortfirstauthor"]=>
string(9) "Pacold ME"
["vernaculartitle"]=>
string(0) ""
}
[27058668]=>
array(43) {
["uid"]=>
string(8) "27058668"
["pubdate"]=>
string(10) "2016 Apr 7"
["epubdate"]=>
string(0) ""
["source"]=>
string(4) "Cell"
["authors"]=>
array(16) {
[0]=>
array(3) {
["name"]=>
string(12) "Olenchock BA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Moslehi J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Baik AH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Davidson SM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Williams J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Gibson WJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(14) "Chakraborty AA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Pierce KA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Miller CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Hanse EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Kelekar A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(9) "Wagers AJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(8) "Clish CB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(12) "Kaelin WG Jr"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Kaelin WG Jr"
["title"]=>
string(90) "EGLN1 Inhibition and Rerouting of α-Ketoglutarate Suffice for Remote Ischemic Protection."
["sorttitle"]=>
string(86) "egln1 inhibition and rerouting of ketoglutarate suffice for remote ischemic protection"
["volume"]=>
string(3) "165"
["issue"]=>
string(1) "2"
["pages"]=>
string(3) "497"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413066"
["issn"]=>
string(9) "0092-8674"
["essn"]=>
string(9) "1097-4172"
["pubtype"]=>
array(1) {
[0]=>
string(17) "Published Erratum"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27058668"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0092-8674(16)30335-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.cell.2016.03.037"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27058668"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27058668"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/04/09 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/04/09 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/04/09 06:01"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(31) "Cell. 2016 Feb 25;164(5):884-95"
["reftype"]=>
string(11) "Erratum for"
["pmid"]=>
int(26919427)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(9)
["fulljournalname"]=>
string(4) "Cell"
["elocationid"]=>
string(31) "doi: 10.1016/j.cell.2016.03.037"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/04/07 00:00"
["sortfirstauthor"]=>
string(12) "Olenchock BA"
["vernaculartitle"]=>
string(0) ""
}
[26919427]=>
array(43) {
["uid"]=>
string(8) "26919427"
["pubdate"]=>
string(11) "2016 Feb 25"
["epubdate"]=>
string(0) ""
["source"]=>
string(4) "Cell"
["authors"]=>
array(16) {
[0]=>
array(3) {
["name"]=>
string(12) "Olenchock BA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Moslehi J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Baik AH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Davidson SM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Williams J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Gibson WJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(14) "Chakraborty AA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Pierce KA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Miller CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Hanse EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Kelekar A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(9) "Wagers AJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(8) "Clish CB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(12) "Kaelin WG Jr"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Kaelin WG Jr"
["title"]=>
string(90) "EGLN1 Inhibition and Rerouting of α-Ketoglutarate Suffice for Remote Ischemic Protection."
["sorttitle"]=>
string(86) "egln1 inhibition and rerouting of ketoglutarate suffice for remote ischemic protection"
["volume"]=>
string(3) "164"
["issue"]=>
string(1) "5"
["pages"]=>
string(6) "884-95"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413066"
["issn"]=>
string(9) "0092-8674"
["essn"]=>
string(9) "1097-4172"
["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) "26919427"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0092-8674(16)30072-1"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.cell.2016.02.006"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4819986"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS761410"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26919427"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26919427"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(71) "pmc-id: PMC4819986;manuscript-id: NIHMS761410;embargo-date: 2017/02/25;"
}
}
["history"]=>
array(7) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/08/10 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2015/12/12 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/02/01 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(11) "pmc-release"
["date"]=>
string(16) "2017/02/25 00:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/02/27 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/02/27 06:00"
}
[6]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/07/28 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(27) "Cell. 2016 Apr 7;165(2):497"
["reftype"]=>
string(10) "Erratum in"
["pmid"]=>
int(27058668)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(41)
["fulljournalname"]=>
string(4) "Cell"
["elocationid"]=>
string(31) "doi: 10.1016/j.cell.2016.02.006"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/02/25 00:00"
["sortfirstauthor"]=>
string(12) "Olenchock BA"
["vernaculartitle"]=>
string(0) ""
}
[26880201]=>
array(43) {
["uid"]=>
string(8) "26880201"
["pubdate"]=>
string(11) "2016 Feb 15"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "J Cell Biol"
["authors"]=>
array(11) {
[0]=>
array(3) {
["name"]=>
string(8) "Hecht VC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(13) "Kimmerling RJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Kim DH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Hosios AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(14) "Stockslager MA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Stevens MM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(7) "Kang JH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(7) "Wirtz D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Manalis SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Manalis SR"
["title"]=>
string(82) "Biophysical changes reduce energetic demand in growth factor-deprived lymphocytes."
["sorttitle"]=>
string(81) "biophysical changes reduce energetic demand in growth factor deprived lymphocytes"
["volume"]=>
string(3) "212"
["issue"]=>
string(1) "4"
["pages"]=>
string(6) "439-47"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0375356"
["issn"]=>
string(9) "0021-9525"
["essn"]=>
string(9) "1540-8140"
["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) "26880201"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(13) "jcb.201506118"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(21) "10.1083/jcb.201506118"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4754715"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26880201"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26880201"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4754715;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/02/17 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/02/18 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/08/02 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(8)
["fulljournalname"]=>
string(27) "The Journal of cell biology"
["elocationid"]=>
string(26) "doi: 10.1083/jcb.201506118"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/02/15 00:00"
["sortfirstauthor"]=>
string(8) "Hecht VC"
["vernaculartitle"]=>
string(0) ""
}
[26853747]=>
array(43) {
["uid"]=>
string(8) "26853747"
["pubdate"]=>
string(10) "2016 Mar 8"
["epubdate"]=>
string(10) "2016 Feb 4"
["source"]=>
string(10) "Cell Metab"
["authors"]=>
array(20) {
[0]=>
array(3) {
["name"]=>
string(11) "Davidson SM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(20) "Papagiannakopoulos T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Olenchock BA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Heyman JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Keibler MA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Luengo A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Bauer MR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(6) "Jha AK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "O'Brien JP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Pierce KA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(6) "Gui DY"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(12) "Wasylenko TM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(10) "Subbaraj L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(7) "Chin CR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(16) "Stephanopolous G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(7) "Mott BT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(7) "Jacks T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[18]=>
array(3) {
["name"]=>
string(8) "Clish CB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[19]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(16) "Vander Heiden MG"
["title"]=>
string(88) "Environment Impacts the Metabolic Dependencies of Ras-Driven Non-Small Cell Lung Cancer."
["sorttitle"]=>
string(87) "environment impacts the metabolic dependencies of ras driven non small cell lung cancer"
["volume"]=>
string(2) "23"
["issue"]=>
string(1) "3"
["pages"]=>
string(6) "517-28"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101233170"
["issn"]=>
string(9) "1550-4131"
["essn"]=>
string(9) "1932-7420"
["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) "26853747"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S1550-4131(16)00041-3"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.cmet.2016.01.007"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4785096"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS758714"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26853747"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26853747"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4785096;manuscript-id: NIHMS758714;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/07/14 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2015/11/16 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/01/06 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/02/09 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/02/09 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/12/15 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(34) "Nat Rev Cancer. 2016 Apr;16(4):198"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(27009387)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(277)
["fulljournalname"]=>
string(15) "Cell metabolism"
["elocationid"]=>
string(31) "doi: 10.1016/j.cmet.2016.01.007"
["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) "2016/03/08 00:00"
["sortfirstauthor"]=>
string(11) "Davidson SM"
["vernaculartitle"]=>
string(0) ""
}
[26232225]=>
array(43) {
["uid"]=>
string(8) "26232225"
["pubdate"]=>
string(11) "2015 Jul 30"
["epubdate"]=>
string(0) ""
["source"]=>
string(4) "Cell"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Gui DY"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Hosios AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Bush LN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Freinkman E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(16) "Vander Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(16) "Vander Heiden MG"
["title"]=>
string(97) "Supporting Aspartate Biosynthesis Is an Essential Function of Respiration in Proliferating Cells."
["sorttitle"]=>
string(96) "supporting aspartate biosynthesis is an essential function of respiration in proliferating cells"
["volume"]=>
string(3) "162"
["issue"]=>
string(1) "3"
["pages"]=>
string(6) "552-63"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413066"
["issn"]=>
string(9) "0092-8674"
["essn"]=>
string(9) "1097-4172"
["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) "26232225"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0092-8674(15)00854-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.cell.2015.07.017"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4522278"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS709568"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26232225"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26232225"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4522278;manuscript-id: NIHMS709568;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/06/08 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2015/07/06 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/07/08 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/08/02 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/08/02 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/10/29 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(334)
["fulljournalname"]=>
string(4) "Cell"
["elocationid"]=>
string(31) "doi: 10.1016/j.cell.2015.07.017"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/07/30 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[25671107]=>
array(43) {
["uid"]=>
string(8) "25671107"
["pubdate"]=>
string(4) "2014"
["epubdate"]=>
string(11) "2014 Nov 28"
["source"]=>
string(12) "Cancer Metab"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Chandel NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Chandel NS"
["title"]=>
string(49) "Mitochondrial reactive oxygen species and cancer."
["sorttitle"]=>
string(48) "mitochondrial reactive oxygen species and cancer"
["volume"]=>
string(1) "2"
["issue"]=>
string(0) ""
["pages"]=>
string(2) "17"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101607582"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "2049-3002"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(3) "258"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25671107"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(22) "10.1186/2049-3002-2-17"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(3) "138"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4323058"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25671107"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25671107"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4323058;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2014/06/03 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2014/08/27 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/02/12 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/02/12 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/02/12 06:01"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(197)
["fulljournalname"]=>
string(19) "Cancer & metabolism"
["elocationid"]=>
string(27) "doi: 10.1186/2049-3002-2-17"
["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) "2014/11/28 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[25347702]=>
array(43) {
["uid"]=>
string(8) "25347702"
["pubdate"]=>
string(11) "2014 Oct 24"
["epubdate"]=>
string(11) "2014 Oct 24"
["source"]=>
string(8) "BMC Biol"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(8) "Luengo A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Heiden MG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Heiden MG"
["title"]=>
string(113) "Understanding the complex-I-ty of metformin action: limiting mitochondrial respiration to improve cancer therapy."
["sorttitle"]=>
string(111) "understanding the complex i ty of metformin action limiting mitochondrial respiration to improve cancer therapy"
["volume"]=>
string(2) "12"
["issue"]=>
string(0) ""
["pages"]=>
string(2) "82"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101190720"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "1741-7007"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(1) "3"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25347702"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(17) "s12915-014-0082-4"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1186/s12915-014-0082-4"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4207883"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25347702"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25347702"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4207883;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2014/10/28 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2014/10/28 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/10/28 06:01"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(23) "Cancer Metab. 2014;2:12"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(25184038)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(33)
["fulljournalname"]=>
string(11) "BMC biology"
["elocationid"]=>
string(30) "doi: 10.1186/s12915-014-0082-4"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/10/24 00:00"
["sortfirstauthor"]=>
string(8) "Luengo A"
["vernaculartitle"]=>
string(0) ""
}
[24857658]=>
array(43) {
["uid"]=>
string(8) "24857658"
["pubdate"]=>
string(11) "2014 Jun 12"
["epubdate"]=>
string(11) "2014 May 22"
["source"]=>
string(8) "Cell Rep"
["authors"]=>
array(12) {
[0]=>
array(3) {
["name"]=>
string(9) "Mullen AR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Hu Z"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(5) "Shi X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Jiang L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Boroughs LK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Kovacs Z"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Boriack R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Rakheja D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(10) "Linehan WM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Chandel NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(15) "DeBerardinis RJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(15) "DeBerardinis RJ"
["title"]=>
string(116) "Oxidation of alpha-ketoglutarate is required for reductive carboxylation in cancer cells with mitochondrial defects."
["sorttitle"]=>
string(115) "oxidation of alpha ketoglutarate is required for reductive carboxylation in cancer cells with mitochondrial defects"
["volume"]=>
string(1) "7"
["issue"]=>
string(1) "5"
["pages"]=>
string(9) "1679-1690"
["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(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24857658"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S2211-1247(14)00339-8"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.celrep.2014.04.037"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4057960"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS591624"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24857658"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24857658"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4057960;manuscript-id: NIHMS591624;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2013/10/28 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2014/03/09 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2014/04/21 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2014/05/27 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2014/05/27 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/08/22 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(143)
["fulljournalname"]=>
string(12) "Cell reports"
["elocationid"]=>
string(33) "doi: 10.1016/j.celrep.2014.04.037"
["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) "2014/06/12 00:00"
["sortfirstauthor"]=>
string(9) "Mullen AR"
["vernaculartitle"]=>
string(0) ""
}
[24843020]=>
array(43) {
["uid"]=>
string(8) "24843020"
["pubdate"]=>
string(11) "2014 May 13"
["epubdate"]=>
string(11) "2014 May 13"
["source"]=>
string(5) "Elife"
["authors"]=>
array(11) {
[0]=>
array(3) {
["name"]=>
string(10) "Wheaton WW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Weinberg SE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Hamanaka RB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Soberanes S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(6) "Anso E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Glasauer A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(8) "Dufour E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Mutlu GM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(11) "Budigner GS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Chandel NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Chandel NS"
["title"]=>
string(83) "Metformin inhibits mitochondrial complex I of cancer cells to reduce tumorigenesis."
["sorttitle"]=>
string(82) "metformin inhibits mitochondrial complex i of cancer cells to reduce tumorigenesis"
["volume"]=>
string(1) "3"
["issue"]=>
string(0) ""
["pages"]=>
string(6) "e02242"
["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(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24843020"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4017650"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(19) "10.7554/eLife.02242"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24843020"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24843020"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4017650;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2014/05/21 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2014/05/21 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/05/21 06:01"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(359)
["fulljournalname"]=>
string(5) "eLife"
["elocationid"]=>
string(24) "doi: 10.7554/eLife.02242"
["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) "2014/05/13 00:00"
["sortfirstauthor"]=>
string(10) "Wheaton WW"
["vernaculartitle"]=>
string(0) ""
}
[24335489]=>
array(43) {
["uid"]=>
string(8) "24335489"
["pubdate"]=>
string(4) "2014"
["epubdate"]=>
string(11) "2013 Dec 13"
["source"]=>
string(10) "Cell Cycle"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Chandel NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Chandel NS"
["title"]=>
string(58) "Mitochondrial metabolism in TCA cycle mutant cancer cells."
["sorttitle"]=>
string(57) "mitochondrial metabolism in tca cycle mutant cancer cells"
["volume"]=>
string(2) "13"
["issue"]=>
string(1) "3"
["pages"]=>
string(5) "347-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101137841"
["issn"]=>
string(9) "1538-4101"
["essn"]=>
string(9) "1551-4005"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(9) "Editorial"
}
["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) "24335489"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(5) "27513"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(16) "10.4161/cc.27513"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3956527"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24335489"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24335489"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3956527;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/12/17 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/12/18 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/01/15 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(34) "Mol Cell. 2013 Jul 25;51(2):236-48"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(23747014)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(29) "Cell cycle (Georgetown, Tex.)"
["elocationid"]=>
string(21) "doi: 10.4161/cc.27513"
["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) "2014/01/01 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[23747014]=>
array(43) {
["uid"]=>
string(8) "23747014"
["pubdate"]=>
string(11) "2013 Jul 25"
["epubdate"]=>
string(10) "2013 Jun 6"
["source"]=>
string(8) "Mol Cell"
["authors"]=>
array(9) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(17) "Martinez-Garcia E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Nguyen H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Mullen AR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Dufour E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Sudarshan S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Licht JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(15) "Deberardinis RJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Chandel NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Chandel NS"
["title"]=>
string(87) "The proto-oncometabolite fumarate binds glutathione to amplify ROS-dependent signaling."
["sorttitle"]=>
string(82) "proto oncometabolite fumarate binds glutathione to amplify ros dependent signaling"
["volume"]=>
string(2) "51"
["issue"]=>
string(1) "2"
["pages"]=>
string(6) "236-48"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9802571"
["issn"]=>
string(9) "1097-2765"
["essn"]=>
string(9) "1097-4164"
["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) "23747014"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S1097-2765(13)00366-3"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.molcel.2013.05.003"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3775267"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS511733"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23747014"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23747014"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3775267;manuscript-id: NIHMS511733;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2012/09/11 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2013/03/20 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2013/05/02 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/06/11 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/06/12 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/11/12 06:00"
}
}
["references"]=>
array(2) {
[0]=>
array(4) {
["refsource"]=>
string(31) "Mol Cell. 2013 Jul 25;51(2):273"
["reftype"]=>
string(10) "Erratum in"
["pmid"]=>
string(0) ""
["note"]=>
string(0) ""
}
[1]=>
array(4) {
["refsource"]=>
string(28) "Cell Cycle. 2014;13(3):347-8"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(24335489)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(112)
["fulljournalname"]=>
string(14) "Molecular cell"
["elocationid"]=>
string(33) "doi: 10.1016/j.molcel.2013.05.003"
["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) "2013/07/25 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[23020852]=>
array(43) {
["uid"]=>
string(8) "23020852"
["pubdate"]=>
string(11) "2012 Sep 28"
["epubdate"]=>
string(0) ""
["source"]=>
string(8) "Mol Cell"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Santos JH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Chandel NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Chandel NS"
["title"]=>
string(58) "Mitochondria and telomeres: the promiscuous roles of TIN2."
["sorttitle"]=>
string(56) "mitochondria and telomeres the promiscuous roles of tin2"
["volume"]=>
string(2) "47"
["issue"]=>
string(1) "6"
["pages"]=>
string(5) "823-4"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9802571"
["issn"]=>
string(9) "1097-2765"
["essn"]=>
string(9) "1097-4164"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23020852"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S1097-2765(12)00782-4"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.molcel.2012.09.006"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23020852"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23020852"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/10/02 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/10/02 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/10/02 06:01"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(34) "Mol Cell. 2012 Sep 28;47(6):839-50"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(22885005)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(14) "Molecular cell"
["elocationid"]=>
string(33) "doi: 10.1016/j.molcel.2012.09.006"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/09/28 00:00"
["sortfirstauthor"]=>
string(11) "Sullivan LB"
["vernaculartitle"]=>
string(0) ""
}
[22101431]=>
array(43) {
["uid"]=>
string(8) "22101431"
["pubdate"]=>
string(11) "2011 Nov 20"
["epubdate"]=>
string(11) "2011 Nov 20"
["source"]=>
string(6) "Nature"
["authors"]=>
array(10) {
[0]=>
array(3) {
["name"]=>
string(9) "Mullen AR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Wheaton WW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Jin ES"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Chen PH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Sullivan LB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Cheng T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(6) "Yang Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Linehan WM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Chandel NS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(15) "DeBerardinis RJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(15) "DeBerardinis RJ"
["title"]=>
string(84) "Reductive carboxylation supports growth in tumour cells with defective mitochondria."
["sorttitle"]=>
string(83) "reductive carboxylation supports growth in tumour cells with defective mitochondria"
["volume"]=>
string(3) "481"
["issue"]=>
string(4) "7381"
["pages"]=>
string(5) "385-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0410462"
["issn"]=>
string(9) "0028-0836"
["essn"]=>
string(9) "1476-4687"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "3"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22101431"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(11) "nature10642"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(19) "10.1038/nature10642"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3262117"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS331574"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22101431"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22101431"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3262117;manuscript-id: NIHMS331574;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2011/06/13 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2011/10/13 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/11/22 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/11/22 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/03/07 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(524)
["fulljournalname"]=>
string(6) "Nature"
["elocationid"]=>
string(24) "doi: 10.1038/nature10642"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2011/11/20 00:00"
["sortfirstauthor"]=>
string(9) "Mullen AR"
["vernaculartitle"]=>
string(0) ""
}
}
}
Publications
The following publications were retrieved from PubMed:
Cell-specific transcriptional control of mitochondrial metabolism by TIF1γ drives erythropoiesis.
Rossmann MP, Hoi K, Chan V, Abraham BJ, Yang S, Mullahoo J, Papanastasiou M, Wang Y, Elia I, Perlin JR, Hagedorn EJ, Hetzel S, Weigert R, Vyas S, Nag PP, Sullivan LB, Warren CR, Dorjsuren B, Greig EC, Adatto I, Cowan CA, Schreiber SL, Young RA, Meissner A, Haigis MC, Hekimi S, Carr SA, Zon LI.
Science. 2021 May 14; 6543(372)716-721
Differential substrate use in EGF- and oncogenic KRAS-stimulated human mammary epithelial cells.
Keibler MA, Dong W, Korthauer KD, Hosios AM, Moon SJ, Sullivan LB, Liu N, Abbott KL, Arevalo OD, Ho K, Lee J, Phanse AS, Kelleher JK, Iliopoulos O, Coloff JL, Vander Heiden MG, Stephanopoulos G.
FEBS J. 2021 Apr 3;
Increased demand for NAD+ relative to ATP drives aerobic glycolysis.
Luengo A, Li Z, Gui DY, Sullivan LB, Zagorulya M, Do BT, Ferreira R, Naamati A, Ali A, Lewis CA, Thomas CJ, Spranger S, Matheson NJ, Vander Heiden MG.
Mol Cell. 2021 Feb 18; 4(81)691-707.e6
Davidsen K, Sullivan LB.
Cancer Discov. 2020 Nov; 11(10)1632-1634
MFSD7C switches mitochondrial ATP synthesis to thermogenesis in response to heme.
Li Y, Ivica NA, Dong T, Papageorgiou DP, He Y, Brown DR, Kleyman M, Hu G, Chen WW, Sullivan LB, Del Rosario A, Hammond PT, Vander Heiden MG, Chen J.
Nat Commun. 2020 Sep 24; 1(11)4837
MAX Functions as a Tumor Suppressor and Rewires Metabolism in Small Cell Lung Cancer.
Augert A, Mathsyaraja H, Ibrahim AH, Freie B, Geuenich MJ, Cheng PF, Alibeckoff SP, Wu N, Hiatt JB, Basom R, Gazdar A, Sullivan LB, Eisenman RN, MacPherson D.
Cancer Cell. 2020 Jul 13; 1(38)97-114.e7
Redox Debt Leads to Metabolic Bankruptcy in Tumors.
Quon E, Hart ML, Sullivan LB.
Trends Cancer. 2020 May; 5(6)359-361
Metabolic Frugality Marks Cancer Cells for Immune Targeting.
Sullivan LB
Cell. 2018 Sep 6; 6(174)1344-1346
Aspartate is an endogenous metabolic limitation for tumour growth.
Sullivan LB, Luengo A, Danai LV, Bush LN, Diehl FF, Hosios AM, Lau AN, Elmiligy S, Malstrom S, Lewis CA, Vander Heiden MG.
Nat Cell Biol. 2018 Jul; 7(20)782-788
Inhibiting mitochondrial phosphate transport as an unexploited antifungal strategy.
McLellan CA, Vincent BM, Solis NV, Lancaster AK, Sullivan LB, Hartland CL, Youngsaye W, Filler SG, Whitesell L, Lindquist S.
Nat Chem Biol. 2018 Feb; 2(14)135-141
Extracellular vesicles: Taking metabolism on the road.
Sullivan LB
Nat Chem Biol. 2017 Aug 18; 9(13)924-925
Altered metabolite levels in cancer: implications for tumour biology and cancer therapy.
Sullivan LB, Gui DY, Vander Heiden MG.
Nat Rev Cancer. 2016 Nov; 11(16)680-693
Gui DY, Sullivan LB, Luengo A, Hosios AM, Bush LN, Gitego N, Davidson SM, Freinkman E, Thomas CJ, Vander Heiden MG.
Cell Metab. 2016 Nov 8; 5(24)716-727
Corrigendum: A PHGDH inhibitor reveals coordination of serine synthesis and one-carbon unit fate.
Pacold ME, Brimacombe KR, Chan SH, Rohde JM, Lewis CA, Swier LJ, Possemato R, Chen WW, Sullivan LB, Fiske BP, Cho S, Freinkman E, Birsoy K, Abu MR, Shaul YD, Liu CM, Zhou M, Koh MJ, Chung H, Davidson SM, Luengo A, Wang AQ, Xu X, Yasgar A, Liu L, Rai G, Westover KD, Heiden MG, Shen M, Gray NS, Boxer MB, Sabatini DM.
Nat Chem Biol. 2016 Jul 19; 8(12)656
A PHGDH inhibitor reveals coordination of serine synthesis and one-carbon unit fate.
Pacold ME, Brimacombe KR, Chan SH, Rohde JM, Lewis CA, Swier LJ, Possemato R, Chen WW, Sullivan LB, Fiske BP, Cho S, Freinkman E, Birsoy K, Abu-Remaileh M, Shaul YD, Liu CM, Zhou M, Koh MJ, Chung H, Davidson SM, Luengo A, Wang AQ, Xu X, Yasgar A, Liu L, Rai G, Westover KD, Vander Heiden MG, Shen M, Gray NS, Boxer MB, Sabatini DM.
Nat Chem Biol. 2016 Jun; 6(12)452-8
EGLN1 Inhibition and Rerouting of α-Ketoglutarate Suffice for Remote Ischemic Protection.
Olenchock BA, Moslehi J, Baik AH, Davidson SM, Williams J, Gibson WJ, Chakraborty AA, Pierce KA, Miller CM, Hanse EA, Kelekar A, Sullivan LB, Wagers AJ, Clish CB, Vander Heiden MG, Kaelin WG Jr.
Cell. 2016 Apr 7; 2(165)497
EGLN1 Inhibition and Rerouting of α-Ketoglutarate Suffice for Remote Ischemic Protection.
Olenchock BA, Moslehi J, Baik AH, Davidson SM, Williams J, Gibson WJ, Chakraborty AA, Pierce KA, Miller CM, Hanse EA, Kelekar A, Sullivan LB, Wagers AJ, Clish CB, Vander Heiden MG, Kaelin WG Jr.
Cell. 2016 Feb 25; 5(164)884-95
Biophysical changes reduce energetic demand in growth factor-deprived lymphocytes.
Hecht VC, Sullivan LB, Kimmerling RJ, Kim DH, Hosios AM, Stockslager MA, Stevens MM, Kang JH, Wirtz D, Vander Heiden MG, Manalis SR.
J Cell Biol. 2016 Feb 15; 4(212)439-47
Environment Impacts the Metabolic Dependencies of Ras-Driven Non-Small Cell Lung Cancer.
Davidson SM, Papagiannakopoulos T, Olenchock BA, Heyman JE, Keibler MA, Luengo A, Bauer MR, Jha AK, O'Brien JP, Pierce KA, Gui DY, Sullivan LB, Wasylenko TM, Subbaraj L, Chin CR, Stephanopolous G, Mott BT, Jacks T, Clish CB, Vander Heiden MG.
Cell Metab. 2016 Mar 8; 3(23)517-28
Supporting Aspartate Biosynthesis Is an Essential Function of Respiration in Proliferating Cells.
Sullivan LB, Gui DY, Hosios AM, Bush LN, Freinkman E, Vander Heiden MG.
Cell. 2015 Jul 30; 3(162)552-63
Mitochondrial reactive oxygen species and cancer.
Sullivan LB, Chandel NS.
Cancer Metab. 2014; (2)17
Luengo A, Sullivan LB, Heiden MG.
BMC Biol. 2014 Oct 24; (12)82
Mullen AR, Hu Z, Shi X, Jiang L, Boroughs LK, Kovacs Z, Boriack R, Rakheja D, Sullivan LB, Linehan WM, Chandel NS, DeBerardinis RJ.
Cell Rep. 2014 Jun 12; 5(7)1679-1690
Metformin inhibits mitochondrial complex I of cancer cells to reduce tumorigenesis.
Wheaton WW, Weinberg SE, Hamanaka RB, Soberanes S, Sullivan LB, Anso E, Glasauer A, Dufour E, Mutlu GM, Budigner GS, Chandel NS.
Elife. 2014 May 13; (3)e02242
Mitochondrial metabolism in TCA cycle mutant cancer cells.
Sullivan LB, Chandel NS.
Cell Cycle. 2014; 3(13)347-8
The proto-oncometabolite fumarate binds glutathione to amplify ROS-dependent signaling.
Sullivan LB, Martinez-Garcia E, Nguyen H, Mullen AR, Dufour E, Sudarshan S, Licht JD, Deberardinis RJ, Chandel NS.
Mol Cell. 2013 Jul 25; 2(51)236-48
Mitochondria and telomeres: the promiscuous roles of TIN2.
Sullivan LB, Santos JH, Chandel NS.
Mol Cell. 2012 Sep 28; 6(47)823-4
Reductive carboxylation supports growth in tumour cells with defective mitochondria.
Mullen AR, Wheaton WW, Jin ES, Chen PH, Sullivan LB, Cheng T, Yang Y, Linehan WM, Chandel NS, DeBerardinis RJ.
Nature. 2011 Nov 20; 7381(481)385-8
Accepting Students For:
Rotation, Autumn
Rotation, Spring
Rotation, Winter
Permanent