欢迎您访问中乔新舟官网!400-038-9959我的购物车(0)
您当前的位置:首页 > 产品中心
A375人恶性黑色素瘤细胞(STR鉴定)[套餐促销]
英文名:A375
货号:ZQ0042
价格:¥1200.00
加入购物车,提交订单信息之后,我们会第一时间与您取得联系!
推荐组合

A375人恶性黑色素瘤细胞(STR鉴定)[套餐促销]

¥1200.00
+

A-375人恶性黑色素瘤细胞专用培养基

¥550.00

配套完培,省时省力,单买细胞无优惠

=

细胞套餐惊爆价

¥1750
加入购物车
  • 产品说明
  • 产品规格
  • 参考文献
  • STR鉴定

产品名称 

A375人恶性黑色素瘤细胞 

货号 

ZQ0042 

产品介绍 

A375是一种人恶性黑色素瘤细胞系,来源于一名罹患黑色素瘤的54岁女性的皮肤组织,是Giard DJ等人建立的一系列细胞株中的一株。这种细胞系在癌症研究中非常有用,尤其是在研究恶性黑色素瘤的生物学特性、药物反应和转移机制方面。广泛应用于恶性黑色素瘤的研究,包括药物筛选、基因表达分析、信号传导途径研究、免疫治疗研究等。该细胞在抗胸腺细胞球蛋白、血清处理的NIH Swiss小鼠中形成类似于恶性黑素瘤的快速增殖的皮下肿瘤。

种属 

 

性别/年龄 

女性/54岁 

组织 

皮肤 

疾病 

恶性黑色素瘤

生物安全等级 

BSL -1

STR位点信息 

Amelogenin: X

D3S1358: 15,17
TH01: 8
D21S11: 29,30
D18S51: 12,17
Penta_E: 10,12
D5S818: 12
D13S317: 11,14
D16S539: 9
CSF1PO: 11,12
Penta_D: 9,15
vWA: 16,17
D8S1179: 11,14
TPOX: 8,10
FGA: 20,23
D19S433: 13,14.2
D2S1338: 16,24
D7S820: 9

细胞类型 

肿瘤细胞 

形态学 

贴壁生长 

生长方式 

贴壁 

倍增时间 

大约26.9~32小时

培养基和添加剂 

DMEM(高糖)基础培养基(中乔新舟 货号:ZQ-100)+10%FBS(品牌:中乔新舟 货号:ZQ500-A+1%PS(货号:CSP006+1% Sodium Pyruvate 100 mM Solution(中乔新舟  货号:CSP003+1%L-alanyl-L-glutamine(中乔新舟   货号:CSP004

推荐完全培养基货号 

ZM0042

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; CRL-1619 BCRC; 60051 DSMZ; ACC-175 ECACC; 92110305 

供应限制 

仅供科研使用 


货号

ZQ0042

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: mGPDH Deficiency leads to melanoma metastasis via induced NRF2
DOI: 10.1111/jcmm.16542
发表时间: 2021-05-03
期刊: JOURNAL OF CELLULAR AND MOLECULAR MEDICINE
影响因子: 5.31
货号: ZQ0042
产品名称: A375 cells

原文链接: https://onlinelibrary.wiley.com/doi/abs/10.1111/jcmm.16542


论文标题: Identification and validation of a ferroptosis-related gene signature for predicting survival in skin cutaneous melanoma
DOI: 10.1002/cam4.4706
发表时间: 2022-04-04
期刊: Cancer Medicine
影响因子: 4.452
货号: ZQ0042
产品名称: A375 cells
原文链接: https://onlinelibrary.wiley.com/doi/abs/10.1002/cam4.4706


论文标题: Karyopherin α 2 promotes proliferation, migration and invasion through activating NF-κB/p65 signaling pathways in melanoma cells
DOI: 10.1016/j.lfs.2020.117611
发表时间: 2020-04-01
期刊: LIFE SCIENCES
影响因子: 3.647
货号: ZQ0042
产品名称: A375 cells
原文链接: https://www.sciencedirect.com/science/article/pii/S0024320520303593


论文标题: A high affinity nanobody against endothelin receptor type B: a new approach to the treatment of melanoma
DOI: 10.1007/s11033-020-05313-w
发表时间: 2020-02-20
期刊: MOLECULAR BIOLOGY REPORTS
影响因子: 2.316
货号: ZQ0042
产品名称: Human melanoma cell line A375
原文链接: https://link.springer.com/article/10.1007/s11033-020-05313-w


论文标题: Triclosan induces ROS‑dependent cell death and autophagy in A375 melanoma cells
DOI: 10.3892/ol.2020.11934
发表时间: 2020-07-30
期刊: Oncology Letters
影响因子: 2.311
货号: ZQ0042
产品名称: A375 cells

原文链接: https://www.spandidos-publications.com/10.3892/ol.2020.11934



PubMed=4357758; DOI=10.1093/jnci/51.5.1417
Giard D.J., Aaronson S.A., Todaro G.J., Arnstein P., Kersey J.H., Dosik H., Parks W.P.
In vitro cultivation of human tumors: establishment of cell lines derived from a series of solid tumors.
J. Natl. Cancer Inst. 51:1417-1423(1973)


PubMed=265522; DOI=10.1073/pnas.74.2.565; PMCID=PMC392331
Fabricant R.N., De Larco J.E., Todaro G.J.
Nerve growth factor receptors on human melanoma cells in culture.
Proc. Natl. Acad. Sci. U.S.A. 74:565-569(1977)


PubMed=327080; DOI=10.1093/jnci/59.1.221
Fogh J., Fogh J.M., Orfeo T.
One hundred and twenty-seven cultured human tumor cell lines producing tumors in nude mice.
J. Natl. Cancer Inst. 59:221-226(1977)


PubMed=833871; DOI=10.1093/jnci/58.2.209
Fogh J., Wright W.C., Loveless J.D.
Absence of HeLa cell contamination in 169 cell lines derived from human tumors.
J. Natl. Cancer Inst. 58:209-214(1977)


DOI=10.1007/BF00199208
Bruggen J., Sorg C., Macher E.
Membrane associated antigens of human malignant melanoma V: Serological typing of cell lines using antisera from nonhuman primates.
Cancer Immunol. Immunother. 5:53-62(1978)


PubMed=77569; DOI=10.1111/j.1399-0039.1978.tb01259.x
Espmark J.A., Ahlqvist-Roth L., Sarne L., Persson A.
Tissue typing of cells in culture. III. HLA antigens of established human cell lines. Attempts at typing by the mixed hemadsorption technique.
Tissue Antigens 11:279-286(1978)


PubMed=375235; DOI=10.1073/pnas.76.3.1288; PMCID=PMC383236
Sherwin S.A., Sliski A.H., Todaro G.J.
Human melanoma cells have both nerve growth factor and nerve growth factor-specific receptors on their cell surfaces.
Proc. Natl. Acad. Sci. U.S.A. 76:1288-1292(1979)


PubMed=22282976; DOI=10.1093/carcin/1.1.21
Day R.S. 3rd, Ziolkowski C.H.J., Scudiero D.A., Meyer S.A., Mattern M.R.
Human tumor cell strains defective in the repair of alkylation damage.
Carcinogenesis 1:21-32(1980)


DOI=10.1007/BF00205883
Bruggen J., Macher E., Sorg C.
Expression of surface antigens and its relation to parameters of malignancy in human malignant melanoma.
Cancer Immunol. Immunother. 10:121-127(1981)


PubMed=6954533; DOI=10.1073/pnas.79.7.2194; PMCID=PMC346157
Westin E.H., Gallo R.C., Arya S.K., Eva A., Souza L.M., Baluda M.A., Aaronson S.A., Wong-Staal F.
Differential expression of the amv gene in human hematopoietic cells.
Proc. Natl. Acad. Sci. U.S.A. 79:2194-2198(1982)


PubMed=6220172
Dracopoli N.C., Fogh J.
Polymorphic enzyme analysis of cultured human tumor cell lines.
J. Natl. Cancer Inst. 70:469-476(1983)


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=6584666; DOI=10.1093/jnci/72.4.913
Kozlowski J.M., Hart I.R., Fidler I.J., Hanna N.
A human melanoma line heterogeneous with respect to metastatic capacity in athymic nude mice.
J. Natl. Cancer Inst. 72:913-917(1984)


PubMed=3518877; DOI=10.3109/07357908609038260
Fogh J.
Human tumor lines for cancer research.
Cancer Invest. 4:157-184(1986)


PubMed=1832891; DOI=10.1016/0277-5379(91)90277-K
Hansson J., Fichtinger-Schepman A.M.J., Edgren M.R., Ringborg U.
Comparative study of two human melanoma cell lines with different sensitivities to mustine and cisplatin.
Eur. J. Cancer 27:1039-1045(1991)


PubMed=9670966; DOI=10.4049/jimmunol.161.2.877
Bettinotti M.P., Kim C.J., Lee K.-H., Roden M., Cormier J.N., Panelli M.C., Parker K.K., Marincola F.M.
Stringent allele/epitope requirements for MART-1/Melan A immunodominance: implications for peptide-based immunotherapy.
J. Immunol. 161:877-889(1998)


PubMed=9973934; DOI=10.1016/S0165-4608(98)00122-8
Nelson M.A., Ariza M.E., Yang J.-M., Thompson F.H., Taetle R., Trent J.M., Wymer J., Massey-Brown K.S., Broome-Powell M., Easton J., Lahti J.M., Kidd V.J.
Abnormalities in the p34cdc2-related PITSLRE protein kinase gene complex (CDC2L) on chromosome band 1p36 in melanoma.
Cancer Genet. Cytogenet. 108:91-99(1999)


PubMed=10497214; DOI=10.1074/jbc.274.40.28505
Ariza M.E., Broome-Powell M., Lahti J.M., Kidd V.J., Nelson M.A.
Fas-induced apoptosis in human malignant melanoma cell lines is associated with the activation of the p34(cdc2)-related PITSLRE protein kinases.
J. Biol. Chem. 274:28505-28513(1999)


PubMed=12068308; DOI=10.1038/nature00766
Davies H.R., Bignell G.R., Cox C., Stephens P.J., Edkins S., Clegg S., Teague J.W., Woffendin H., Garnett M.J., Bottomley W., Davis N., Dicks E., Ewing R., Floyd Y., Gray K., Hall S., Hawes R., Hughes J., Kosmidou V., Menzies A., Mould C., Parker A., Stevens C., Watt S., Hooper S., Wilson R., Jayatilake H., Gusterson B.A., Cooper C.S., Shipley J.M., Hargrave D., Pritchard-Jones K., Maitland N.J., Chenevix-Trench G., Riggins G.J., Bigner D.D., Palmieri G., Cossu A., Flanagan A.M., Nicholson A., Ho J.W.C., Leung S.Y., Yuen S.T., Weber B.L., Seigler H.F., Darrow T.L., Paterson H.F., Marais R., Marshall C.J., Wooster R., Stratton M.R., Futreal P.A.
Mutations of the BRAF gene in human cancer.
Nature 417:949-954(2002)


PubMed=14871852; DOI=10.1158/0008-5472.CAN-03-2209
Hogan K.T., Coppola M.A., Gatlin C.L., Thompson L.W., Shabanowitz J., Hunt D.F., Engelhard V.H., Ross M.M., Slingluff C.L. Jr.
Identification of novel and widely expressed cancer/testis gene isoforms that elicit spontaneous cytotoxic T-lymphocyte reactivity to melanoma.
Cancer Res. 64:1157-1163(2004)


PubMed=15009714; DOI=10.1046/j.0022-202X.2004.22243.x; PMCID=PMC2586668
Tsao H., Goel V., Wu H., Yang G., Haluska F.G.
Genetic interaction between NRAS and BRAF mutations and PTEN/MMAC1 inactivation in melanoma.
J. Invest. Dermatol. 122:337-341(2004)


PubMed=15467732; DOI=10.1038/sj.onc.1208152
Tanami H., Imoto I., Hirasawa A., Yuki Y., Sonoda I., Inoue J., Yasui K., Misawa-Furihata A., Kawakami Y., Inazawa J.
Involvement of overexpressed wild-type BRAF in the growth of malignant melanoma cell lines.
Oncogene 23:8796-8804(2004)


PubMed=17308088; DOI=10.1158/0008-5472.CAN-06-3311
Shields J.M., Thomas N.E., Cregger M., Berger A.J., Leslie M., Torrice C., Hao H.-L., Penland S., Arbiser J.L., Scott G.A., Zhou T., Bar-Eli M., Bear J.E., Der C.J., Kaufmann W.K., Rimm D.L., Sharpless N.E.
Lack of extracellular signal-regulated kinase mitogen-activated protein kinase signaling shows a new type of melanoma.
Cancer Res. 67:1502-1512(2007)


PubMed=18172304; DOI=10.1158/0008-5472.CAN-07-1939
Sabatino M., Zhao Y.-D., Voiculescu S., Monaco A., Robbins P.F., Karai L., Nickoloff B.J., Maio M., Selleri S., Marincola F.M., Wang E.
Conservation of genetic alterations in recurrent melanoma supports the melanoma stem cell hypothesis.
Cancer Res. 68:122-131(2008)


PubMed=19727395; DOI=10.1371/journal.pone.0006888; PMCID=PMC2731225
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)


PubMed=20164919; DOI=10.1038/nature08768; PMCID=PMC3145113
Bignell G.R., Greenman C.D., Davies H.R., 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; PMCID=PMC2881662
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=21343389; DOI=10.1158/0008-5472.CAN-10-2958; PMCID=PMC3070783
Rose A.E., Poliseno L., Wang J.-H., Clark M., Pearlman A., Wang G.-M., Vega y Saenz de Miera E.C., Medicherla R., Christos P.J., Shapiro R., Pavlick A., Darvishian F., Zavadil J., Polsky D., Hernando E., Ostrer H., Osman I.
Integrative genomics identifies molecular alterations that challenge the linear model of melanoma progression.
Cancer Res. 71:2561-2571(2011)


PubMed=21424129; DOI=10.3892/or.2011.1220
Manca A., Sini M.C., Izzo F., Ascierto P.A., Tatangelo F., Botti G., Gentilcore G., Capone M., Mozzillo N., Rozzo C., Cossu A., Tanda F., Palmieri G.
Induction of arginosuccinate synthetase (ASS) expression affects the antiproliferative activity of arginine deiminase (ADI) in melanoma cells.
Oncol. Rep. 25:1495-1502(2011)


PubMed=21673604; DOI=10.1097/CMR.0b013e32834495c3; PMCID=PMC3131479
Orgaz J.L., Benguria A., Sanchez-Martinez C., Ladhani O., Volpert O.V., Jimenez B.
Changes in the gene expression profile of A375 human melanoma cells induced by overexpression of multifunctional pigment epithelium-derived factor.
Melanoma Res. 21:285-297(2011)


PubMed=21857157; DOI=10.4161/cc.10.17.17068; PMCID=PMC5479465
Caputo E., Maiorana L., Vasta V., Pezzino F.M., Sunkara S., Wynne K., Elia G., Marincola F.M., McCubrey J.A., Libra M., Travali S., Kane M.
Characterization of human melanoma cell lines and melanocytes by proteome analysis.
Cell Cycle 10:2924-2936(2011)


PubMed=22178978; DOI=10.1016/j.freeradbiomed.2011.11.019
Swalwell H., Latimer J., Haywood R.M., Birch-Machin M.A.
Investigating the role of melanin in UVA/UVB- and hydrogen peroxide-induced cellular and mitochondrial ROS production and mitochondrial DNA damage in human melanoma cells.
Free Radic. Biol. Med. 52:626-634(2012)


PubMed=22460905; DOI=10.1038/nature11003; PMCID=PMC3320027
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=23039341; DOI=10.1186/1476-4598-11-75; PMCID=PMC3554420
Byron S.A., Loch D.C., Wellens C.L., Wortmann A., Wu J.-Y., Wang J., Nomoto K., Pollock P.M.
Sensitivity to the MEK inhibitor E6201 in melanoma cells is associated with mutant BRAF and wildtype PTEN status.
Mol. Cancer 11:75.1-75.15(2012)


PubMed=24581590; DOI=10.1016/j.jdermsci.2014.01.006
Gehrke S., Otsuka A., Huber R., Meier B., Kistowska M., Fenini G., Cheng P., Dummer R., Kerl K., Contassot E., French L.E.
Metastatic melanoma cell lines do not secrete IL-1beta but promote IL-1beta production from macrophages.
J. Dermatol. Sci. 74:167-169(2014)


PubMed=25056119; DOI=10.1158/0008-5472.CAN-14-1232-T; PMCID=PMC4167745
Watson I.R., Li L.-R., Cabeceiras P.K., Mahdavi M., Gutschner T., Genovese G., Wang G.-C., Fang Z.-N., Tepper J.M., Stemke-Hale K., Tsai K.Y., Davies M.A., Mills G.B., Chin L.
The RAC1 P29S hotspot mutation in melanoma confers resistance to pharmacological inhibition of RAF.
Cancer Res. 74:4845-4852(2014)


PubMed=25960936; DOI=10.4161/21624011.2014.954893; PMCID=PMC4355981
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=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=26405815; DOI=10.1371/journal.pone.0138210; PMCID=PMC4583389
Capaldo B.J., Roller D.G., Axelrod M.J., Koeppel A.F., Petricoin E.F. 3rd, Slingluff C.L. Jr., Weber M.J., Mackey A.J., Gioeli D., Bekiranov S.
Systems analysis of adaptive responses to MAP kinase pathway blockade in BRAF mutant melanoma.
PLoS ONE 10:E0138210-E0138210(2015)


PubMed=26589293; DOI=10.1186/s13073-015-0240-5; PMCID=PMC4653878
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=26673621; DOI=10.18632/oncotarget.6548; PMCID=PMC4823068
Roller D.G., Capaldo B.J., Bekiranov S., Mackey A.J., Conaway M.R., Petricoin E.F. 3rd, Gioeli D., Weber M.J.
Combinatorial drug screening and molecular profiling reveal diverse mechanisms of intrinsic and adaptive resistance to BRAF inhibition in V600E BRAF mutant melanomas.
Oncotarget 7:2734-2753(2016)


PubMed=27397505; DOI=10.1016/j.cell.2016.06.017; PMCID=PMC4967469
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=28196595; DOI=10.1016/j.ccell.2017.01.005; PMCID=PMC5501076
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=29275043; DOI=10.1016/j.jprot.2017.12.013
Liberato T., Pessotti D.S., Fukushima I., Kitano E.S., Serrano S.M.T., Zelanis A.
Signatures of protein expression revealed by secretome analyses of cancer associated fibroblasts and melanoma cell lines.
J. Proteomics 174:1-8(2018)


PubMed=29492214; DOI=10.18632/oncotarget.23989; PMCID=PMC5823576
Sini M.C., Doneddu V., Paliogiannis P., Casula M., Colombino M., Manca A., Botti G., Ascierto P.A., Lissia A., Cossu A., Palmieri G.
Genetic alterations in main candidate genes during melanoma progression.
Oncotarget 9:8531-8541(2018)


PubMed=29605720; DOI=10.1016/j.neo.2018.02.009; PMCID=PMC5915992
Mologni L., Costanza M., Sharma G.G., Viltadi M., Massimino L., Citterio S., Purgante S., Raman H., Pirola A., Zucchetti M., Piazza R., Gambacorti-Passerini C.
Concomitant BCORL1 and BRAF mutations in vemurafenib-resistant melanoma cells.
Neoplasia 20:467-477(2018)


PubMed=30894373; DOI=10.1158/0008-5472.CAN-18-2747; PMCID=PMC6445675
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=30971826; DOI=10.1038/s41586-019-1103-9
Behan F.M., Iorio F., Picco G., Goncalves E., Beaver C.M., Migliardi G., Santos R., Rao Y., Sassi F., Pinnelli M., Ansari R., Harper S., Jackson D.A., McRae R., Pooley R., Wilkinson P., van der Meer D.J., Dow D., Buser-Doepner C.A., Bertotti A., Trusolino L., Stronach E.A., Saez-Rodriguez J., Yusa K., Garnett M.J.
Prioritization of cancer therapeutic targets using CRISPR-Cas9 screens.
Nature 568:511-516(2019)


PubMed=31068700; DOI=10.1038/s41586-019-1186-3; PMCID=PMC6697103
Ghandi M., Huang F.W., Jane-Valbuena J., Kryukov G.V., Lo C.C., McDonald E.R. 3rd, 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; PMCID=PMC7339254
Nusinow D.P., Szpyt J., Ghandi M., Rose C.M., McDonald E.R. 3rd, 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=35128241; DOI=10.1021/acsomega.1c05361; PMCID=PMC8811929
Martinez R. 3rd, Huang W.-L., Buck H., Rea S., Defnet A.E., Kane M.A., Shapiro P.
Proteomic changes in the monolayer and spheroid melanoma cell models of acquired resistance to BRAF and MEK1/2 inhibitors.
ACS Omega 7:3293-3311(2022)


PubMed=35839778; DOI=10.1016/j.ccell.2022.06.010; PMCID=PMC9387775
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)



公司简介 / Company profile
上海中乔新舟生物科技有限公司
Shanghai Zhong Qiao Xin Zhou Biotechnology Co.,Ltd.
      上海中乔新舟生物科技有限公司(官网:www.zqxzbio.com)成立于2011年,历经十多年发展,主要专注于细胞生物学产品的研究和开发,专...
联系我们 / Contact
电 话:021-56760357;021-56760351
传 真:
邮 箱:sales@zqxzbio.com
邮 编:200439
地 址:上海市宝山区长江南路180号
Copyright © 2014 ZQXZBIO All rights reserved.
技术支持:中乔新舟沪ICP备14008091号