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- 详细信息
- 文献和实验
- 技术资料
- 物种来源:
Human
- 相关疾病:
详询
- 品系:
详询
- ATCC Number:
详询
- 细胞类型:
详询
- 肿瘤类型:
详询
- 供应商:
上海酶研
- 库存:
5×105
- 免疫类型:
详询
- 细胞形态:
上皮细胞样
- 是否是肿瘤细胞:
是
- 生长状态:
贴壁生长
- 年限:
无限
- 运输方式:
干冰
- 器官来源:
详询
- 英文名:
详询
PL45细胞系、PL-45细胞株、PL-45胰腺导管腺癌细胞;PL45细胞
Cell line name PL45
Synonyms PL-45; PL 45
Accession CVCL_3567
Resource Identification Initiative To cite this cell line use: PL45 (RRID:CVCL_3567)
Comments Part of: Cancer Dependency Map project (DepMap) (includes Cancer Cell Line Encyclopedia - CCLE).
Part of: MD Anderson Cell Lines Project.
Population: Caucasian.
Omics: Deep proteome analysis.
Omics: Deep quantitative proteome analysis.
Omics: Metabolome analysis.
Omics: Protein expression by reverse-phase protein arrays.
Omics: SNP array analysis.
Omics: Transcriptome analysis by microarray.
Omics: Transcriptome analysis by RNAseq.
Omics: Transcriptome analysis by serial analysis of gene expression (SAGE).
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.
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.,
Hamidi H., Lu M., Chau K., Anderson L., Fejzo M.S., Ginther C., Linnartz R., Zubel A., Slamon D.J., Finn R.S.
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.
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.
Daemen A., Peterson D., Sahu N., McCord R., Du X.-N., Liu B., Kowanetz K., Hong R., Moffat J., Gao M., Boudreau A., Mroue R., Corson L., O'Brien T., Qing J., Sampath D., Merchant M., Yauch R.L., Manning G., Settleman J., Hatzivassiliou G., Evangelista M.
Metabolite profiling stratifies pancreatic ductal adenocarcinomas into subtypes with distinct sensitivities to metabolic inhibitors.
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.
Humphrey E.S., Su S.-P., Nagrial A.M., Hochgrafe F., Pajic M., Lehrbach G.M., Parton R.G., Yap A.S., Horvath L.G., Chang D.K., Biankin A.V., Wu J.-M., Daly R.J.
Resolution of novel pancreatic ductal adenocarcinoma subtypes by global phosphotyrosine profiling.
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.
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.
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文献和实验*发表【中文论文】请标注:由上海酶研生物科技有限公司提供;
*发表【英文论文】请标注:From Shanghai EK-Bioscience Biotechnology Co., Ltd.
Nature 子刊:超声波调控肿瘤内细菌的基因表达,助力肿瘤免疫治疗
治疗肿瘤的新方法,通过设计超声响应性基因表达线路,并将其导入肿瘤靶向细菌,获得了具有超声响应性的工程化细菌,借助于超声优良的无创、可聚焦、高组织穿透性和声热转化的优势,可以在肿瘤部位实现工程化细菌的基因表达调控。 研究团队利用该系统借助超声控制肿瘤内细菌表达干扰素 γ(interferon-γ, IFN-γ),成功实现了皮下移植乳腺癌以及原位移植肝癌的免疫治疗应用,取得了良好的效果。该研究发展了一种可在体时空调控基因表达的新方法,可应用于细菌、免疫细胞、干细胞等活体细胞药物的在体基因表达调控,具有巨大
呵呵, 不知道这位战友有没有自己动手养过细胞,想 cytosolic 和 nuclei 分离开,而且还要满足 30-50 的蛋白量的话,要多大的碟子上养多少数量级密度的细胞吗? 而且他这个是细胞株还好一点,如果是原代的其他细胞的话, 要杀多少动物啊. 呵呵, 而且重新提蛋白意味着很有可能要重新造模,先不提时间和金钱, 伦理委员会将如何,呵呵 没有实践就没有发言权! 我曾做过四个肝癌细胞系
。 1986年美籍华人杨育中从长臂猿T 白血病 细胞株 MLA144中提取IL-3mRNA,成功地获得长臂猿IL-3cDNA(gIL-3cDNA),后又用gIL-3cDNA作为探针筛选人IL-3基因组DNA,并克隆成功。人IL-3基因结构与小鼠相似,由5个显子和4个内含子组成,人与鼠IL-3DNA约有45%同源性,氨基酸有29%同源性,但人鼠间IL-3生物学作用无交叉反应。人和长臂猿IL-3有高度同源性,成熟的IL-3分子都由133个氨基酸残基组成,仅11
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