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BT-549人乳腺管癌细胞(STR鉴定)[套餐促销]

英文名:BT-549
货号:ZQ0376
价格:¥1400.00
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推荐组合

BT-549人乳腺管癌细胞(STR鉴定)[套餐促销]

¥1400.00
+

BT-549人乳腺管癌细胞专用培养基

¥700.00

配套完培,组合使用,省时省力!

=

细胞套餐惊爆价

¥2100
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  • 产品说明
  • 产品规格
  • 参考文献
  • STR鉴定

产品名称

BT-549人乳腺管癌细胞

货号

ZQ0376

产品介绍

BT-549细胞是一种人类乳腺癌细胞系,来源于一名56岁患有导管癌的白人女性的乳腺组织。它通常用于癌症研究,研究乳腺癌的生物学和治疗,特别是三阴性亚型,缺乏雌激素受体、孕激素受体和HER2表达。
BT-549细胞以其上皮形态为特征,以其高侵袭性而闻名,使其成为研究转移和肿瘤侵袭的重要模型。它表现出几个独特的特征,包括在细胞质中存在脂滴和粘蛋白-1蛋白的强烈表达。这细胞还表达各种与乳腺癌病理相关的癌基因和抑癌基因,如TP53和RB1。
BT-549细胞系雌激素受体阴性,孕激素受体阴性,且不扩增HER2,因此属于三阴性乳腺癌(TNBC)亚型。由于这种分类,BT-549细胞对于研究TNBC中独特的进展和治疗反应机制特别有用,TNBC以其侵袭性和缺乏靶向治疗而闻名。
此外,BT-549细胞经常用于耐药研究和测试新的化疗药物和靶向治疗,为管理和治疗侵袭性乳腺癌的潜在治疗策略提供见解。

注意事项:
(1)BT-549细胞传代后24-48小时后细胞大部分可贴壁,,建议传代后细胞48小时换液。细胞呈上皮样多边形和少量圆细胞.
(2)复苏冻存细胞24小时后会有大量细胞漂浮,48小时后换液,此后每两天换液一次,7-10天后可达到传代密度,细胞需要高密度冻存。

种属

性别/年龄

女/72岁

组织

乳腺;胸肉

疾病

导管癌

细胞类型

肿瘤细胞

形态学

上皮

生长方式

贴壁

倍增时间

大约25.46~53.9小时 

培养基和添加剂

RPMI-1640(中乔新舟 货号:ZQ-200)+10%胎牛血清(中乔新舟 货号:ZQ0500)+1%P/S(中乔新舟  货号:CSP006)++0.023IU/ml胰岛素(中乔新舟  货号:CSP001-10

推荐完全培养基货号

ZM0376

生物安全等级

BSL-1

STR位点信息

Amelogenin : X

CSF1PO: 10 , 12

D13S317: 11

D16S539 : 8

D5S818: 11

D7S820: 9, 10

TPOX: 8

TH01: 9.3

vWA : 15

培养条件

95%空气,5%二氧化碳;37℃

抗原表达/受体表达

 ***

基因表达

 ***

保藏机构

ATCC; HTB-122

供应限制

仅供科研使用

货号

ZQ0376

发货规格

活细胞:T25培养瓶*1瓶或者1ml 冻存管*1支(细胞量约为5 x 10^5 cells/vial)二选一

发货形式

活细胞:常温运输;冻存管:干冰运输

储存温度

活细胞:培养箱;冻存管:液氮罐

产地

中国

供应限制

仅供科研使用


论文标题: Cardamonin inhibits breast cancer growth by repressing HIF-1α-dependent metabolic reprogramming
DOI: 10.1186/s13046-019-1351-4
发表时间: 2019-08-27
期刊: JOURNAL OF EXPERIMENTAL & CLINICAL CANCER RESEARCH
影响因子: 5.646
货号: ZQ0376
产品名称: BT549 cells

原文链接: https://jeccr.biomedcentral.com/articles/10.1186/s13046-019-1351-4


论文标题: Development of a Prognostic Model Based on the Identification of EMT-Related lncRNAs in Triple-Negative Breast Cancer
DOI: 10.1155/2021/9219961
发表时间: 2021-11-27
期刊: Journal of Oncology
影响因子: 4.375
货号: ZQ0376
产品名称: BT-549 cell
原文链接: https://www.hindawi.com/journals/jo/2021/9219961/


论文标题: Verteporfin inhibits cell proliferation and induces apoptosis in different subtypes of breast cancer cell lines without light activation
DOI: 10.1186/s12885-020-07555-0
发表时间: 2020-10-29
期刊: BMC CANCER
影响因子: 3.15
货号: ZQ0376
产品名称: BT-549 cells
原文链接: https://bmccancer.biomedcentral.com/articles/10.1186/s12885-020-07555-0


论文标题: P16 promotes the growth and mobility potential of breast cancer both in vitro and in vivo: the key role of the activation of IL-6/JAK2/STAT3 signaling
DOI: 10.1007/s11010-018-3281-4
发表时间: 2018-01-31
期刊: MOLECULAR AND CELLULAR BIOCHEMISTRY
影响因子: 2.561
货号: ZQ0376
产品名称: BT-549 cells
原文链接: https://link.springer.com/article/10.1007/s11010-018-3281-4


论文标题: Determination of the migration effect and molecular docking of verteporfin in different subtypes of breast cancer cells
DOI: 10.3892/mmr.2020.11482
发表时间: 2020-09-02
期刊: Molecular Medicine Reports
影响因子: 2.1
货号: ZQ0376
产品名称: BT-549 cells

原文链接: https://www.spandidos-publications.com/10.3892/mmr.2020.11482



DOI=10.1007/978-1-4757-0019-0_7
Lasfargues E.Y., Coutinho W.G.
Human breast tumor cells in culture; new concepts in mammary carcinogenesis.
(In) New frontiers in mammary pathology; Hollmann K.H., de Brux J., Verley J.M. (eds.); pp.117-143; Plenum Press; New York (1981)


PubMed=6500159; DOI=10.1159/000163283
Gershwin M.E., Lentz D., Owens R.B.
Relationship between karyotype of tissue culture lines and tumorigenicity in nude mice.
Exp. Cell Biol. 52:361-370(1984)


PubMed=1961733; DOI=10.1073/pnas.88.23.10657
Runnebaum I.B., Nagarajan M., Bowman M., Soto D., Sukumar S.
Mutations in p53 as potential molecular markers for human breast cancer.
Proc. Natl. Acad. Sci. U.S.A. 88:10657-10661(1991)


PubMed=7902062
de la Torre M., Hao X.-Y., Larsson R., Nygren P., Tsuruo T., Mannervik B., Bergh J.
Characterization of four doxorubicin adapted human breast cancer cell lines with respect to chemotherapeutic drug sensitivity, drug resistance associated membrane proteins and glutathione transferases.
Anticancer Res. 13:1425-1430(1993)


DOI=10.1016/B978-0-12-333530-2.50009-5
Leibovitz A.
Cell lines from human breast.
(In) Atlas of human tumor cell lines; Hay R.J., Park J.-G., Gazdar A.F. (eds.); pp.161-184; Academic Press; New York (1994)


PubMed=21552935; DOI=10.3892/ijo.7.5.1079
Nangia-Makker P., Thompson E., Hogan C., Ochieng J., Raz A.
Induction of tumorigenicity by galectin-3 in a nontumorigenic human breast-carcinoma cell-line.
Int. J. Oncol. 7:1079-1087(1995)


PubMed=9561029
Warfield P.R., Nangia-Makker P., Raz A., Ochieng J.
Adhesion of human breast carcinoma to extracellular matrix proteins is modulated by galectin-3.
Invasion Metastasis 17:101-112(1997)


PubMed=9671407; DOI=10.1038/sj.onc.1201814
Sweeney K.J., Swarbrick A., Sutherland R.L., Musgrove E.A.
Lack of relationship between CDK activity and G1 cyclin expression in breast cancer cells.
Oncogene 16:2865-2878(1998)


PubMed=10700174; DOI=10.1038/73432
Ross D.T., Scherf U., Eisen M.B., Perou C.M., Rees C., Spellman P.T., Iyer V.R., Jeffrey S.S., van de Rijn M., Waltham M.C., Pergamenschikov A., Lee J.C.F., Lashkari D., Shalon D., Myers T.G., Weinstein J.N., Botstein D., Brown P.O.
Systematic variation in gene expression patterns in human cancer cell lines.
Nat. Genet. 24:227-235(2000)


PubMed=10862037; DOI=10.1002/1098-2264(200007)28:3<308::AID-GCC9>3.0.CO;2-B
Kytola S., Rummukainen J., Nordgren A., Karhu R., Farnebo F., Isola J.J., Larsson C.
Chromosomal alterations in 15 breast cancer cell lines by comparative genomic hybridization and spectral karyotyping.
Genes Chromosomes Cancer 28:308-317(2000)


PubMed=10969801
Forozan F., Mahlamaki E.H., Monni O., Chen Y.-D., Veldman R., Jiang Y., Gooden G.C., Ethier S.P., Kallioniemi A., Kallioniemi O.-P.
Comparative genomic hybridization analysis of 38 breast cancer cell lines: a basis for interpreting complementary DNA microarray data.
Cancer Res. 60:4519-4525(2000)


PubMed=11343771; DOI=10.1016/S0165-4608(00)00387-3
Rummukainen J., Kytola S., Karhu R., Farnebo F., Larsson C., Isola J.J.
Aberrations of chromosome 8 in 16 breast cancer cell lines by comparative genomic hybridization, fluorescence in situ hybridization, and spectral karyotyping.
Cancer Genet. Cytogenet. 126:1-7(2001)


PubMed=15153330; DOI=10.1593/neo.3292
Watts G.S., Oshiro M.M., Junk D.J., Wozniak R.J., Watterson S.J., Domann F.E., Futscher B.W.
The acetyltransferase p300/CBP-associated factor is a p53 target gene in breast tumor cells.
Neoplasia 6:187-194(2004)


PubMed=15677628; DOI=10.1093/carcin/bgi032
Gorringe K.L., Chin S.-F., Pharoah P.D.P., Staines J.M., Oliveira C., Edwards P.A.W., Caldas C.
Evidence that both genetic instability and selection contribute to the accumulation of chromosome alterations in cancer.
Carcinogenesis 26:923-930(2005)


PubMed=15748285; DOI=10.1186/1479-5876-3-11
Adams S., Robbins F.-M., Chen D., Wagage D., Holbeck S.L., Morse H.C. III, Stroncek D., Marincola F.M.
HLA class I and II genotype of the NCI-60 cell lines.
J. Transl. Med. 3:11.1-11.8(2005)


PubMed=16397213; DOI=10.1158/0008-5472.CAN-05-2853
Elstrodt F., Hollestelle A., Nagel J.H.A., Gorin M., Wasielewski M., van den Ouweland A.M.W., Merajver S.D., Ethier S.P., Schutte M.
BRCA1 mutation analysis of 41 human breast cancer cell lines reveals three new deleterious mutants.
Cancer Res. 66:41-45(2006)


PubMed=16541312; DOI=10.1007/s10549-006-9186-z
Wasielewski M., Elstrodt F., Klijn J.G.M., Berns E.M.J.J., Schutte M.
Thirteen new p53 gene mutants identified among 41 human breast cancer cell lines.
Breast Cancer Res. Treat. 99:97-101(2006)


PubMed=17088437; DOI=10.1158/1535-7163.MCT-06-0433
Ikediobi O.N., Davies H., Bignell G.R., Edkins S., Stevens C., O'Meara S., Santarius T., Avis T., Barthorpe S., Brackenbury L., Buck G., Butler A.P., Clements J., Cole J., Dicks E., Forbes S., Gray K., Halliday K., Harrison R., Hills K., Hinton J., Hunter C., Jenkinson A., Jones D., Kosmidou V., Lugg R., Menzies A., Mironenko T., Parker A., Perry J., Raine K.M., Richardson D., Shepherd R., Small A., Smith R., Solomon H., Stephens P.J., Teague J.W., Tofts C., Varian J., Webb T., West S., Widaa S., Yates A., Reinhold W.C., Weinstein J.N., Stratton M.R., Futreal P.A., Wooster R.
Mutation analysis of 24 known cancer genes in the NCI-60 cell line set.
Mol. Cancer Ther. 5:2606-2612(2006)


PubMed=17157791; DOI=10.1016/j.ccr.2006.10.008
Neve R.M., Chin K., Fridlyand J., Yeh J., Baehner F.L., Fevr T., Clark L., Bayani N., Coppe J.-P., Tong F., Speed T., Spellman P.T., DeVries S., Lapuk A., Wang N.J., Kuo W.-L., Stilwell J.L., Pinkel D., Albertson D.G., Waldman F.M., McCormick F., Dickson R.B., Johnson M.D., Lippman M.E., Ethier S.P., Gazdar A.F., Gray J.W.
A collection of breast cancer cell lines for the study of functionally distinct cancer subtypes.
Cancer Cell 10:515-527(2006)


PubMed=18516279; DOI=10.1016/j.molonc.2007.02.004
Kenny P.A., Lee G.Y., Myers C.A., Neve R.M., Semeiks J.R., Spellman P.T., Lorenz K., Lee E.H., Barcellos-Hoff M.H., Petersen O.W., Gray J.W., Bissell M.J.
The morphologies of breast cancer cell lines in three-dimensional assays correlate with their profiles of gene expression.
Mol. Oncol. 1:84-96(2007)


PubMed=18277095; DOI=10.4161/cbt.7.5.5712
Berglind H., Pawitan Y., Kato S., Ishioka C., Soussi T.
Analysis of p53 mutation status in human cancer cell lines: a paradigm for cell line cross-contamination.
Cancer Biol. Ther. 7:699-708(2008)


PubMed=19372543; DOI=10.1158/1535-7163.MCT-08-0921
Lorenzi P.L., Reinhold W.C., Varma S., Hutchinson A.A., Pommier Y., Chanock S.J., Weinstein J.N.
DNA fingerprinting of the NCI-60 cell line panel.
Mol. Cancer Ther. 8:713-724(2009)


PubMed=19582160; DOI=10.1371/journal.pone.0006146
Kao J., Salari K., Bocanegra M., Choi Y.-L., Girard L., Gandhi J., Kwei K.A., Hernandez-Boussard T., Wang P., Gazdar A.F., Minna J.D., Pollack J.R.
Molecular profiling of breast cancer cell lines defines relevant tumor models and provides a resource for cancer gene discovery.
PLoS ONE 4:E6146-E6146(2009)


PubMed=19727395; DOI=10.1371/journal.pone.0006888
Wadlow R.C., Wittner B.S., Finley S.A., Bergquist H., Upadhyay R., Finn S.P., Loda M., Mahmood U., Ramaswamy S.
Systems-level modeling of cancer-fibroblast interaction.
PLoS ONE 4:E6888-E6888(2009)



CLPUB00423

Morrison B.J.
Breast cancer stem cells: tumourspheres and implications for therapy.
Thesis PhD (2010), Griffith University, Australia



PubMed=19593635; DOI=10.1007/s10549-009-0460-8
Hollestelle A., Nagel J.H.A., Smid M., Lam S., Elstrodt F., Wasielewski M., Ng S.S., French P.J., Peeters J.K., Rozendaal M.J., Riaz M., Koopman D.G., ten Hagen T.L.M., de Leeuw B.H.C.G.M., Zwarthoff E.C., Teunisse A., van der Spek P.J., Klijn J.G.M., Dinjens W.N.M., Ethier S.P., Clevers H.C., Jochemsen A.G., den Bakker M.A., Foekens J.A., Martens J.W.M., Schutte M.
Distinct gene mutation profiles among luminal-type and basal-type breast cancer cell lines.
Breast Cancer Res. Treat. 121:53-64(2010)


PubMed=20164919; DOI=10.1038/nature08768
Bignell G.R., Greenman C.D., Davies H., Butler A.P., Edkins S., Andrews J.M., Buck G., Chen L., Beare D., Latimer C., Widaa S., Hinton J., Fahey C., Fu B.-Y., Swamy S., Dalgliesh G.L., Teh B.T., Deloukas P., Yang F.-T., Campbell P.J., Futreal P.A., Stratton M.R.
Signatures of mutation and selection in the cancer genome.
Nature 463:893-898(2010)


PubMed=20215515; DOI=10.1158/0008-5472.CAN-09-3458
Rothenberg S.M., Mohapatra G., Rivera M.N., Winokur D., Greninger P., Nitta M., Sadow P.M., Sooriyakumar G., Brannigan B.W., Ulman M.J., Perera R.M., Wang R., Tam A., Ma X.-J., Erlander M., Sgroi D.C., Rocco J.W., Lingen M.W., Cohen E.E.W., Louis D.N., Settleman J., Haber D.A.
A genome-wide screen for microdeletions reveals disruption of polarity complex genes in diverse human cancers.
Cancer Res. 70:2158-2164(2010)


PubMed=20679594; DOI=10.1093/jnci/djq279
Gazdar A.F., Girard L., Lockwood W.W., Lam W.L., Minna J.D.
Lung cancer cell lines as tools for biomedical discovery and research.
J. Natl. Cancer Inst. 102:1310-1321(2010)


PubMed=21778573; DOI=10.3233/BD-2010-0307
Chavez K.J., Garimella S.V., Lipkowitz S.
Triple negative breast cancer cell lines: one tool in the search for better treatment of triple negative breast cancer.
Breast Dis. 32:35-48(2010)


PubMed=22068913; DOI=10.1073/pnas.1111840108
Gillet J.-P., Calcagno A.M., Varma S., Marino M., Green L.J., Vora M.I., Patel C., Orina J.N., Eliseeva T.A., Singal V., Padmanabhan R., Davidson B., Ganapathi R., Sood A.K., Rueda B.R., Ambudkar S.V., Gottesman M.M.
Redefining the relevance of established cancer cell lines to the study of mechanisms of clinical anti-cancer drug resistance.
Proc. Natl. Acad. Sci. U.S.A. 108:18708-18713(2011)


PubMed=22347499; DOI=10.1371/journal.pone.0031628
Ruan X.-Y., Kocher J.-P.A., Pommier Y., Liu H.-F., Reinhold W.C.
Mass homozygotes accumulation in the NCI-60 cancer cell lines as compared to HapMap trios, and relation to fragile site location.
PLoS ONE 7:E31628-E31628(2012)


PubMed=22384151; DOI=10.1371/journal.pone.0032096
Lee J.-S., Kim Y.K., Kim H.J., Hajar S., Tan Y.L., Kang N.-Y., Ng S.H., Yoon C.N., Chang Y.-T.
Identification of cancer cell-line origins using fluorescence image-based phenomic screening.
PLoS ONE 7:E32096-E32096(2012)


PubMed=22460905; DOI=10.1038/nature11003
Barretina J.G., Caponigro G., Stransky N., Venkatesan K., Margolin A.A., Kim S., Wilson C.J., Lehar J., Kryukov G.V., Sonkin D., Reddy A., Liu M., Murray L., Berger M.F., Monahan J.E., Morais P., Meltzer J., Korejwa A., Jane-Valbuena J., Mapa F.A., Thibault J., Bric-Furlong E., Raman P., Shipway A., Engels I.H., Cheng J., Yu G.-Y.K., Yu J.-J., Aspesi P. Jr., de Silva M., Jagtap K., Jones M.D., Wang L., Hatton C., Palescandolo E., Gupta S., Mahan S., Sougnez C., Onofrio R.C., Liefeld T., MacConaill L.E., Winckler W., Reich M., Li N.-X., Mesirov J.P., Gabriel S.B., Getz G., Ardlie K., Chan V., Myer V.E., Weber B.L., Porter J., Warmuth M., Finan P., Harris J.L., Meyerson M.L., Golub T.R., Morrissey M.P., Sellers W.R., Schlegel R., Garraway L.A.
The Cancer Cell Line Encyclopedia enables predictive modelling of anticancer drug sensitivity.
Nature 483:603-607(2012)


PubMed=22585861; DOI=10.1158/2159-8290.CD-11-0224
Marcotte R., Brown K.R., Suarez Saiz F.J., Sayad A., Karamboulas K., Krzyzanowski P.M., Sircoulomb F., Medrano M., Fedyshyn Y., Koh J.L.-Y., van Dyk D., Fedyshyn B., Luhova M., Brito G.C., Vizeacoumar F.J., Vizeacoumar F.S., Datti A., Kasimer D., Buzina A., Mero P., Misquitta C., Normand J., Haider M., Ketela T., Wrana J.L., Rottapel R., Neel B.G., Moffat J.
Essential gene profiles in breast, pancreatic, and ovarian cancer cells.
Cancer Discov. 2:172-189(2012)


PubMed=22628656; DOI=10.1126/science.1218595
Jain M., Nilsson R., Sharma S., Madhusudhan N., Kitami T., Souza A.L., Kafri R., Kirschner M.W., Clish C.B., Mootha V.K.
Metabolite profiling identifies a key role for glycine in rapid cancer cell proliferation.
Science 336:1040-1044(2012)


PubMed=23151021; DOI=10.1186/1471-2164-13-619
Grigoriadis A., Mackay A., Noel E., Wu P.-J., Natrajan R., Frankum J., Reis-Filho J.S., Tutt A.
Molecular characterisation of cell line models for triple-negative breast cancers.
BMC Genomics 13:619.1-619.14(2012)


PubMed=23601657; DOI=10.1186/bcr3415
Riaz M., van Jaarsveld M.T.M., Hollestelle A., Prager-van der Smissen W.J.C., Heine A.A.J., Boersma A.W.M., Liu J.-J., Helmijr J.C.A., Ozturk B., Smid M., Wiemer E.A.C., Foekens J.A., Martens J.W.M.
miRNA expression profiling of 51 human breast cancer cell lines reveals subtype and driver mutation-specific miRNAs.
Breast Cancer Res. 15:R33.1-R33.17(2013)


PubMed=23637631; DOI=10.1371/journal.pgen.1003464
Giacomini C.P., Sun S., Varma S., Shain A.H., Giacomini M.M., Balagtas J.M.S., Sweeney R.T., Lai E., Del Vecchio C.A., Forster A.D., Clarke N., Montgomery K.D., Zhu S., Wong A.J., van de Rijn M., West R.B., Pollack J.R.
Breakpoint analysis of transcriptional and genomic profiles uncovers novel gene fusions spanning multiple human cancer types.
PLoS Genet. 9:E1003464-E1003464(2013)


PubMed=23856246; DOI=10.1158/0008-5472.CAN-12-3342
Abaan O.D., Polley E.C., Davis S.R., Zhu Y.-L.J., Bilke S., Walker R.L., Pineda M.A., Gindin Y., Jiang Y., Reinhold W.C., Holbeck S.L., Simon R.M., Doroshow J.H., Pommier Y., Meltzer P.S.
The exomes of the NCI-60 panel: a genomic resource for cancer biology and systems pharmacology.
Cancer Res. 73:4372-4382(2013)


PubMed=23933261; DOI=10.1016/j.celrep.2013.07.018
Moghaddas Gholami A., Hahne H., Wu Z.-X., Auer F.J., Meng C., Wilhelm M., Kuster B.
Global proteome analysis of the NCI-60 cell line panel.
Cell Rep. 4:609-620(2013)


PubMed=24094812; DOI=10.1016/j.ccr.2013.08.020
Timmerman L.A., Holton T., Yuneva M., Louie R.J., Padro M., Daemen A., Hu M., Chan D.A., Ethier S.P., van 't Veer L.J., Polyak K., McCormick F., Gray J.W.
Glutamine sensitivity analysis identifies the xCT antiporter as a common triple-negative breast tumor therapeutic target.
Cancer Cell 24:450-465(2013)


PubMed=24162158; DOI=10.1007/s10549-013-2743-3
Prat A., Karginova O., Parker J.S., Fan C., He X.-P., Bixby L.M., Harrell J.C., Roman E., Adamo B., Troester M.A., Perou C.M.
Characterization of cell lines derived from breast cancers and normal mammary tissues for the study of the intrinsic molecular subtypes.
Breast Cancer Res. Treat. 142:237-255(2013)


PubMed=24176112; DOI=10.1186/gb-2013-14-10-r110
Daemen A., Griffith O.L., Heiser L.M., Wang N.J., Enache O.M., Sanborn Z., Pepin F., Durinck S., Korkola J.E., Griffith M., Hur J.S., Huh N., Chung J., Cope L., Fackler M.J., Umbricht C.B., Sukumar S., Seth P., Sukhatme V.P., Jakkula L.R., Lu Y.-L., Mills G.B., Cho R.J., Collisson E.A., van 't Veer L.J., Spellman P.T., Gray J.W.
Modeling precision treatment of breast cancer.
Genome Biol. 14:R110.1-R110.14(2013)


PubMed=24279929; DOI=10.1186/2049-3002-1-20
Dolfi S.C., Chan L.L.-Y., Qiu J., Tedeschi P.M., Bertino J.R., Hirshfield K.M., Oltvai Z.N., Vazquez A.
The metabolic demands of cancer cells are coupled to their size and protein synthesis rates.
Cancer Metab. 1:20.1-20.13(2013)


PubMed=24670534; DOI=10.1371/journal.pone.0092047
Varma S., Pommier Y., Sunshine M., Weinstein J.N., Reinhold W.C.
High resolution copy number variation data in the NCI-60 cancer cell lines from whole genome microarrays accessible through CellMiner.
PLoS ONE 9:E92047-E92047(2014)


PubMed=25960936; DOI=10.4161/21624011.2014.954893
Boegel S., Lower M., Bukur T., Sahin U., Castle J.C.
A catalog of HLA type, HLA expression, and neo-epitope candidates in human cancer cell lines.
OncoImmunology 3:e954893.1-e954893.12(2014)


PubMed=25984343; DOI=10.1038/sdata.2014.35
Cowley G.S., Weir B.A., Vazquez F., Tamayo P., Scott J.A., Rusin S., East-Seletsky A., Ali L.D., Gerath W.F.J., Pantel S.E., Lizotte P.H., Jiang G.-Z., Hsiao J., Tsherniak A., Dwinell E., Aoyama S., Okamoto M., Harrington W., Gelfand E.T., Green T.M., Tomko M.J., Gopal S., Wong T.C., Li H.-B., Howell S., Stransky N., Liefeld T., Jang D., Bistline J., Meyers B.H., Armstrong S.A., Anderson K.C., Stegmaier K., Reich M., Pellman D., Boehm J.S., Mesirov J.P., Golub T.R., Root D.E., Hahn W.C.
Parallel genome-scale loss of function screens in 216 cancer cell lines for the identification of context-specific genetic dependencies.
Sci. Data 1:140035-140035(2014)


PubMed=25485619; DOI=10.1038/nbt.3080
Klijn C., Durinck S., Stawiski E.W., Haverty P.M., Jiang Z.-S., Liu H.-B., Degenhardt J., Mayba O., Gnad F., Liu J.-F., Pau G., Reeder J., Cao Y., Mukhyala K., Selvaraj S.K., Yu M.-M., Zynda G.J., Brauer M.J., Wu T.D., Gentleman R.C., Manning G., Yauch R.L., Bourgon R., Stokoe D., Modrusan Z., Neve R.M., de Sauvage F.J., Settleman J., Seshagiri S., Zhang Z.-M.
A comprehensive transcriptional portrait of human cancer cell lines.
Nat. Biotechnol. 33:306-312(2015)


PubMed=25877200; DOI=10.1038/nature14397
Yu M., Selvaraj S.K., Liang-Chu M.M.Y., Aghajani S., Busse M., Yuan J., Lee G., Peale F.V., Klijn C., Bourgon R., Kaminker J.S., Neve R.M.
A resource for cell line authentication, annotation and quality control.
Nature 520:307-311(2015)


PubMed=25892236; DOI=10.1016/j.celrep.2015.03.050
Lawrence R.T., Perez E.M., Hernandez D., Miller C.P., Haas K.M., Irie H.Y., Lee S.-I., Blau C.A., Villen J.
The proteomic landscape of triple-negative breast cancer.
Cell Rep. 11:630-644(2015)


PubMed=26589293; DOI=10.1186/s13073-015-0240-5
Scholtalbers J., Boegel S., Bukur T., Byl M., Goerges S., Sorn P., Loewer M., Sahin U., Castle J.C.
TCLP: an online cancer cell line catalogue integrating HLA type, predicted neo-epitopes, virus and gene expression.
Genome Med. 7:118.1-118.7(2015)


PubMed=27377824; DOI=10.1038/sdata.2016.52
Mestdagh P., Lefever S., Volders P.-J., Derveaux S., Hellemans J., Vandesompele J.
Long non-coding RNA expression profiling in the NCI60 cancer cell line panel using high-throughput RT-qPCR.
Sci. Data 3:160052-160052(2016)


PubMed=27397505; DOI=10.1016/j.cell.2016.06.017
Iorio F., Knijnenburg T.A., Vis D.J., Bignell G.R., Menden M.P., Schubert M., Aben N., Goncalves E., Barthorpe S., Lightfoot H., Cokelaer T., Greninger P., van Dyk E., Chang H., de Silva H., Heyn H., Deng X.-M., Egan R.K., Liu Q.-S., Mironenko T., Mitropoulos X., Richardson L., Wang J.-H., Zhang T.-H., Moran S., Sayols S., Soleimani M., Tamborero D., Lopez-Bigas N., Ross-Macdonald P., Esteller M., Gray N.S., Haber D.A., Stratton M.R., Benes C.H., Wessels L.F.A., Saez-Rodriguez J., McDermott U., Garnett M.J.
A landscape of pharmacogenomic interactions in cancer.
Cell 166:740-754(2016)


PubMed=27807467; DOI=10.1186/s13100-016-0078-4
Zampella J.G., Rodic N., Yang W.R., Huang C.R.L., Welch J., Gnanakkan V.P., Cornish T.C., Boeke J.D., Burns K.H.
A map of mobile DNA insertions in the NCI-60 human cancer cell panel.
Mob. DNA 7:20.1-20.11(2016)


PubMed=28196595; DOI=10.1016/j.ccell.2017.01.005
Li J., Zhao W., Akbani R., Liu W.-B., Ju Z.-L., Ling S.-Y., Vellano C.P., Roebuck P., Yu Q.-H., Eterovic A.K., Byers L.A., Davies M.A., Deng W.-L., Gopal Y.N.V., Chen G., von Euw E.M., Slamon D.J., Conklin D., Heymach J.V., Gazdar A.F., Minna J.D., Myers J.N., Lu Y.-L., Mills G.B., Liang H.
Characterization of human cancer cell lines by reverse-phase protein arrays.
Cancer Cell 31:225-239(2017)


PubMed=28287265; DOI=10.1021/acs.jproteome.6b00470
Yen T.-Y., Bowen S., Yen R., Piryatinska A., Macher B.A., Timpe L.C.
Glycoproteins in claudin-low breast cancer cell lines have a unique expression profile.
J. Proteome Res. 16:1391-1400(2017)


PubMed=28889351; DOI=10.1007/s10549-017-4496-x
Saunus J.M., Smart C.E., Kutasovic J.R., Johnston R.L., Kalita-de Croft P., Miranda M., Rozali E.N., Vargas A.C., Reid L.E., Lorsy E., Cocciardi S., Seidens T., McCart Reed A.E., Dalley A.J., Wockner L.F., Johnson J., Sarkar D., Askarian-Amiri M.E., Simpson P.T., Khanna K.K., Chenevix-Trench G., Al-Ejeh F., Lakhani S.R.
Multidimensional phenotyping of breast cancer cell lines to guide preclinical research.
Breast Cancer Res. Treat. 167:289-301(2018)


PubMed=30613774; DOI=10.1126/sciadv.aau7314
Vande Voorde J., Ackermann T., Pfetzer N., Sumpton D., Mackay G., Kalna G., Nixon C., Blyth K., Gottlieb E., Tardito S.
Improving the metabolic fidelity of cancer models with a physiological cell culture medium.
Sci. Adv. 5:eaau7314.1-eaau7314.14(2019)


PubMed=30894373; DOI=10.1158/0008-5472.CAN-18-2747
Dutil J., Chen Z.-H., Monteiro A.N.A., Teer J.K., Eschrich S.A.
An interactive resource to probe genetic diversity and estimated ancestry in cancer cell lines.
Cancer Res. 79:1263-1273(2019)


PubMed=31068700; DOI=10.1038/s41586-019-1186-3
Ghandi M., Huang F.W., Jane-Valbuena J., Kryukov G.V., Lo C.C., McDonald E.R. III, Barretina J.G., Gelfand E.T., Bielski C.M., Li H.-X., Hu K., Andreev-Drakhlin A.Y., Kim J., Hess J.M., Haas B.J., Aguet F., Weir B.A., Rothberg M.V., Paolella B.R., Lawrence M.S., Akbani R., Lu Y.-L., Tiv H.L., Gokhale P.C., de Weck A., Mansour A.A., Oh C., Shih J., Hadi K., Rosen Y., Bistline J., Venkatesan K., Reddy A., Sonkin D., Liu M., Lehar J., Korn J.M., Porter D.A., Jones M.D., Golji J., Caponigro G., Taylor J.E., Dunning C.M., Creech A.L., Warren A.C., McFarland J.M., Zamanighomi M., Kauffmann A., Stransky N., Imielinski M., Maruvka Y.E., Cherniack A.D., Tsherniak A., Vazquez F., Jaffe J.D., Lane A.A., Weinstock D.M., Johannessen C.M., Morrissey M.P., Stegmeier F., Schlegel R., Hahn W.C., Getz G., Mills G.B., Boehm J.S., Golub T.R., Garraway L.A., Sellers W.R.
Next-generation characterization of the Cancer Cell Line Encyclopedia.
Nature 569:503-508(2019)


PubMed=31978347; DOI=10.1016/j.cell.2019.12.023
Nusinow D.P., Szpyt J., Ghandi M., Rose C.M., McDonald E.R. III, Kalocsay M., Jane-Valbuena J., Gelfand E.T., Schweppe D.K., Jedrychowski M.P., Golji J., Porter D.A., Rejtar T., Wang Y.K., Kryukov G.V., Stegmeier F., Erickson B.K., Garraway L.A., Sellers W.R., Gygi S.P.
Quantitative proteomics of the Cancer Cell Line Encyclopedia.
Cell 180:387-402.e16(2020)


PubMed=35839778; DOI=10.1016/j.ccell.2022.06.010
Goncalves E., Poulos R.C., Cai Z.-X., Barthorpe S., Manda S.S., Lucas N., Beck A., Bucio-Noble D., Dausmann M., Hall C., Hecker M., Koh J., Lightfoot H., Mahboob S., Mali I., Morris J., Richardson L., Seneviratne A.J., Shepherd R., Sykes E., Thomas F., Valentini S., Williams S.G., Wu Y.-X., Xavier D., MacKenzie K.L., Hains P.G., Tully B., Robinson P.J., Zhong Q., Garnett M.J., Reddel R.R.
Pan-cancer proteomic map of 949 human cell lines.
Cancer Cell 40:835-849.e8(2022)



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