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DMS114人小细胞肺癌细胞(STR鉴定)

英文名:DMS114
货号:ZQ0956
价格:¥1500.00
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推荐组合

DMS114人小细胞肺癌细胞(STR鉴定)

¥1500.00
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DMS114人非小细胞肺癌细胞专用培养基

¥350.00 ¥650.00

配套完培,省时省力,单买细胞无优惠

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细胞套餐惊爆价

¥1850 ¥2650.00
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  • 产品说明
  • 产品规格
  • 参考文献
  • STR鉴定

产品名称

DMS114人小细胞肺癌细胞

货号

ZQ0956

产品介绍

DMS 114 是从一名 68 岁白人癌症男性患者的肺部分离出来的细胞系。该患者之前未接受过治疗。这些细胞表达 HLA I 类和 II 类抗原。细胞的早期传代被牛支原体(Acholeplasmalaidlawii)污染,用A.laidlawii抗血清和卡那霉素治愈(冷冻保存之前)。

种属

性别/年龄

男;68岁

组织

疾病

癌;小细胞肺癌

生物安全等级

BSL-1

STR位点信息

Amelogenin: X;

CSF1PO: 10,11;

D13S317: 13;

D16S539: 12;

D5S818: 12

D7S820: 10,11;

THO1: 8,9.3;

TPOX: 8,11;

vWA: 16,17

细胞类型

肿瘤细胞

形态学

上皮样

生长方式

贴壁

倍增时间

3.8 days (PubMed=6266631); 1.6 days (PubMed=2986244); 27 hours (PubMed=7718330)

培养基和添加剂

RPMI-1640(货号:ZQ-200+10%FBS(货号:ZQ0500+1%P/S(货号:CSP006

推荐完全培养基

ZM0956

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

 ***

细胞来源

ATCC CRL-2066

供应限制

仅供科研使用


货号

ZQ0956

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


PubMed=6266631; DOI=10.1002/1097-0142(19800301)45:5<906::AID-CNCR2820450513>3.0.CO;2-H
Pettengill O.S., Sorenson G.D., Wurster-Hill D.H., Curphey T.J., Noll W.W., Cate C.C., Maurer L.H.
Isolation and growth characteristics of continuous cell lines from small-cell carcinoma of the lung.
Cancer 45:906-918(1980)


PubMed=2986244; DOI=10.1007/978-3-642-82372-5_5
Vindelov L.L., Hansen H.H., Spang-Thomsen M.
Growth characteristics and heterogeneity of small cell carcinoma of the lung.
Recent Results Cancer Res. 97:47-54(1985)


PubMed=3335022
Alley M.C., Scudiero D.A., Monks A., Hursey M.L., Czerwinski M.J., Fine D.L., Abbott B.J., Mayo J.G., Shoemaker R.H., Boyd M.R.
Feasibility of drug screening with panels of human tumor cell lines using a microculture tetrazolium assay.
Cancer Res. 48:589-601(1988)


PubMed=2388294; DOI=10.1093/jnci/82.17.1420
McLemore T.L., Litterst C.L., Coudert B.P., Liu M.C., Hubbard W.C., Adelberg S., Czerwinski M.J., McMahon N.A., Eggleston J.C., Boyd M.R.
Metabolic activation of 4-ipomeanol in human lung, primary pulmonary carcinomas, and established human pulmonary carcinoma cell lines.
J. Natl. Cancer Inst. 82:1420-1426(1990)


PubMed=2041050; DOI=10.1093/jnci/83.11.757
Monks A., Scudiero D.A., Skehan P., Shoemaker R.H., Paull K.D., Vistica D.T., Hose C.D., Langley J., Cronise P., Vaigro-Wolff A., Gray-Goodrich M., Campbell H., Mayo J.G., Boyd M.R.
Feasibility of a high-flux anticancer drug screen using a diverse panel of cultured human tumor cell lines.
J. Natl. Cancer Inst. 83:757-766(1991)


PubMed=7718330; DOI=10.1016/0959-8049(94)00472-H
Baguley B.C., Marshall E.S., Whittaker J.R., Dotchin M.C., Nixon J., McCrystal M.R., Finlay G.J., Matthews J.H.L., Holdaway K.M., van Zijl P.L.
Resistance mechanisms determining the in vitro sensitivity to paclitaxel of tumour cells cultured from patients with ovarian cancer.
Eur. J. Cancer 31:230-237(1995)


PubMed=9212023; DOI=10.1016/S0360-3016(97)00245-9
Krarup M., Poulsen H.S., Spang-Thomsen M.
Cellular radiosensitivity of small-cell lung cancer cell lines.
Int. J. Radiat. Oncol. Biol. Phys. 38:191-196(1997)


PubMed=9744504; DOI=10.1038/bjc.1998.553
Damstrup L., Voldborg B.G.R., Spang-Thomsen M., Brunner N., Poulsen H.S.
In vitro invasion of small-cell lung cancer cell lines correlates with expression of epidermal growth factor receptor.
Br. J. Cancer 78:631-640(1998)


PubMed=12712436; DOI=10.1002/ijc.11106
Hansen L.T., Lundin C., Spang-Thomsen M., Petersen L.N., Helleday T.
The role of RAD51 in etoposide (VP16) resistance in small cell lung cancer.
Int. J. Cancer 105:472-479(2003)


PubMed=15900046; DOI=10.1093/jnci/dji133
Mashima T., Oh-hara T., Sato S., Mochizuki M., Sugimoto Y., Yamazaki K., Hamada J.-i., Tada M., Moriuchi T., Ishikawa Y., Kato Y., Tomoda H., Yamori T., Tsuruo T.
p53-defective tumors with a functional apoptosome-mediated pathway: a new therapeutic target.
J. Natl. Cancer Inst. 97:765-777(2005)


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=22336246; DOI=10.1016/j.bmc.2012.01.017
Kong D.-X., Yamori T.
JFCR39, a panel of 39 human cancer cell lines, and its application in the discovery and development of anticancer drugs.
Bioorg. Med. Chem. 20:1947-1951(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=22961666; DOI=10.1158/2159-8290.CD-12-0112
Byers L.A., Wang J., Nilsson M.B., Fujimoto J., Saintigny P., Yordy J., Giri U., Peyton M., Fan Y.-H., Diao L.-X., Masrorpour F., Shen L., Liu W.-B., Duchemann B., Tumula P., Bhardwaj V., Welsh J., Weber S., Glisson B.S., Kalhor N., Wistuba I.I., Girard L., Lippman S.M., Mills G.B., Coombes K.R., Weinstein J.N., Minna J.D., Heymach J.V.
Proteomic profiling identifies dysregulated pathways in small cell lung cancer and novel therapeutic targets including PARP1.
Cancer Discov. 2:798-811(2012)

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