"HCT-15人結(jié)直腸腺癌細(xì)胞代次低|培養(yǎng)基|送STR圖譜
傳代比例:1:2-1:4(首次傳代建議1:2)
生長特性:貼壁生長
【細(xì)胞培養(yǎng)經(jīng)驗(yàn)分享】啟蒙老師的重要性:一般進(jìn)實(shí)驗(yàn)室都有師兄師姐帶著做��,他們就是你做細(xì)胞的啟蒙老師。他們的操作手法��、細(xì)節(jié)�、理論講解就成了你操作的準(zhǔn)則,如營養(yǎng)液��、細(xì)胞瓶的擺放位置、滅菌處理程序�����、開蓋手法����、細(xì)胞吹打手法等等。要學(xué)會(huì)他們的正確操作����,在第一次的時(shí)候就要重視��。像養(yǎng)孩子一樣養(yǎng)細(xì)胞�,細(xì)胞有時(shí)真的很脆弱,最好每天都去看看它����,以防止出現(xiàn)培養(yǎng)箱缺水、缺二氧化碳���、停電���、溫度不夠等異?���,F(xiàn)象����,也好及時(shí)解決這些意外,避免重復(fù)實(shí)驗(yàn)帶來的更大痛苦��。好細(xì)胞要及時(shí)保種:細(xì)胞要分批傳代��,這樣即使有一批出了問題���,還有一批備用的�����。像后者一般人可能不容易做到����。但這是我血的教訓(xùn)�����,有一次細(xì)胞污染了����,全軍覆沒。當(dāng)時(shí)可后悔沒有保種����。細(xì)胞跟人一樣,不同的細(xì)胞����,培養(yǎng)特性是不一樣的。培養(yǎng)過程中要細(xì)細(xì)體會(huì)����,不同細(xì)胞系使用不同的培養(yǎng)基和血清。
換液周期:每周2-3次
JROECL 33 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:上皮樣;相關(guān)產(chǎn)品有:HOCF細(xì)胞��、BHK細(xì)胞��、C3H10T1/2CL8細(xì)胞
HC11 Mammary Epithelium Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代��;每周換液2-3次�。;生長特性:貼壁或懸浮,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:F98細(xì)胞����、H-1734細(xì)胞�、4T1.2細(xì)胞
HSC Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代����;每周換液2-3次。;生長特性:貼壁或懸浮����,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:MDAMB435S細(xì)胞、AC29細(xì)胞�����、D407 RPE細(xì)胞
HCT-15人結(jié)直腸腺癌細(xì)胞代次低|培養(yǎng)基|送STR圖譜
背景信息:是一種人結(jié)直腸腺癌細(xì)胞系�����,最初分離自一名男性結(jié)直腸腺癌患者的癌組織�����。DNA指紋鑒定證據(jù)表明��,HCT-15細(xì)胞和DLD-1細(xì)胞來源于同一個(gè)人��;但同工酶及細(xì)胞染色體組型分析仍存疑問。HCT-15細(xì)胞呈CSAp陰性(CSAp-)����;HCT-15角蛋白免疫過氧化物酶染色陽性��。
┈訂┈購(技術(shù)服務(wù))┈熱┈線:1┈3┈6┈4┈1┈9┈3┈0┈7┈9┈1【微信同號(hào)】┈Q┈Q:3┈1┈8┈0┈8┈0┈7┈3┈2┈4�;
DSMZ菌株保藏中心成立于1969年,是德國的國家菌種保藏中心���。該中心一直致力于細(xì)菌����、真菌����、質(zhì)粒、抗菌素�����、人體和動(dòng)物細(xì)胞�、植物病毒等的分類、鑒定和保藏工作��。DSMZ菌種保藏中心是歐洲規(guī)模最大的生物資源中心,保藏有動(dòng)物細(xì)胞500多株�����。Riken BRC成立于1920年�����,是英國的國家菌種保藏中心���。該中心一直致力于細(xì)菌���、真菌、植物病毒等的分類�����、鑒定和保藏工作��。日本Riken BRC(Riken生物資源保藏中心)是全球三大典型培養(yǎng)物收集中心之一�。Riken保藏中心提供了很多細(xì)胞系。在世界范圍內(nèi)�����,這些細(xì)胞系,都在醫(yī)學(xué)��、科學(xué)和獸醫(yī)中具有重要意義�。Riken生物資源中心支持了各種學(xué)術(shù)���、健康、食品和獸醫(yī)機(jī)構(gòu)的研究工作��,并在世界各地不同組織的微生物實(shí)驗(yàn)室和研究機(jī)構(gòu)中使用����。
產(chǎn)品包裝:復(fù)蘇發(fā)貨:T25培養(yǎng)瓶(一瓶)或凍存發(fā)貨:1ml凍存管(兩支)
來源說明:細(xì)胞主要來源ATCC、ECACC���、DSMZ��、RIKEN等細(xì)胞庫
HCT-15人結(jié)直腸腺癌細(xì)胞代次低|培養(yǎng)基|送STR圖譜
物種來源:人源、鼠源等其它物種來源
Tn5 B1-4 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代�����;每周換液2-3次�。;生長特性:貼壁或懸浮����,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:CORL51細(xì)胞、UCLA-RO 81細(xì)胞�����、B-3細(xì)胞
KNS42 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:多邊形;相關(guān)產(chǎn)品有:MV4II細(xì)胞�、HCC0095細(xì)胞�����、NCI-H526細(xì)胞
LICR-LON-HN6-R Cells;背景說明:舌鱗癌���;男性;傳代方法:1:2-1:3傳代���;每周換液2-3次。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:751細(xì)胞����、VM-CUB-1細(xì)胞��、IGR.OV1細(xì)胞
PFSK Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代;每周換液2-3次��。;生長特性:貼壁或懸浮�����,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:NCI H548細(xì)胞�����、RAW264細(xì)胞��、SUSM-1細(xì)胞
┈訂┈購(技術(shù)服務(wù))┈熱┈線:1┈3┈6┈4┈1┈9┈3┈0┈7┈9┈1【微信同號(hào)】┈Q┈Q:3┈1┈8┈0┈8┈0┈7┈3┈2┈4;
形態(tài)特性:上皮細(xì)胞樣
細(xì)胞傳代培養(yǎng)實(shí)驗(yàn):體外培養(yǎng)的原代細(xì)胞或細(xì)胞株要在體外持續(xù)地培養(yǎng)就必須傳代��,以便獲得穩(wěn)定的細(xì)胞株或得到大量的同種細(xì)胞��,并維持細(xì)胞種的延續(xù)���。培養(yǎng)的細(xì)胞形成單層匯合以后,由于密度過大生存空間不足而引起營養(yǎng)枯竭��,將培養(yǎng)的細(xì)胞分散�,從容器中取出,以1:2或1:3以上的比率轉(zhuǎn)移到另外的容器中進(jìn)行培養(yǎng)�����,即為傳代培養(yǎng)�����;細(xì)胞“一代”指從細(xì)胞接種到分離再培養(yǎng)的一段期間��,與細(xì)胞世代或倍增不同�����。在一代中�����,細(xì)胞培增3~6次�����。細(xì)胞傳代后�����,一般經(jīng)過三個(gè)階段:游離期、指數(shù)增生期和停止期����。常用細(xì)胞分裂指數(shù)表示細(xì)胞增殖的旺盛程度�,即細(xì)胞群的分裂相數(shù)/100個(gè)細(xì)胞。一般細(xì)胞分裂指數(shù)介于0.2%~0.5%�,腫瘤細(xì)胞可達(dá)3~5%;細(xì)胞接種2~3天分裂增殖旺盛�����,是活力ZuiHAO時(shí)期�����,稱指數(shù)增生期(對(duì)數(shù)生長期)��,適宜進(jìn)行各種試驗(yàn)��。實(shí)驗(yàn)步驟:1.將長成的培養(yǎng)細(xì)胞從二氧化碳培養(yǎng)箱中取出����,在超凈工作臺(tái)中倒掉瓶內(nèi)的培養(yǎng)�,加入少許消化。(以面蓋住細(xì)胞為宜),靜置5~10分鐘���。2.在倒置鏡下觀察被消化的細(xì)胞�����,如果細(xì)胞變圓�����,相互之間不再連接成片�����,這時(shí)應(yīng)立即在超凈臺(tái)中將消化倒掉��,加入3~5ml新鮮培養(yǎng)���,吹打,制成細(xì)胞懸���。3.將細(xì)胞懸吸出2ml左右�����,加到另一個(gè)培養(yǎng)瓶中并向每個(gè)瓶中分別加3ml左右培養(yǎng)���,蓋HAO瓶塞�����,送回二氧化碳培養(yǎng)箱中���,繼續(xù)進(jìn)行培養(yǎng)。一般情況��,傳代后的細(xì)胞在2小時(shí)左右就能附著在培養(yǎng)瓶壁上�,2~4天就可在瓶內(nèi)形成單層,需要再次進(jìn)行傳代�。
NCI H157 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代;生長特性:貼壁生長 ;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:Hs-606-T細(xì)胞、HPAF/CD18細(xì)胞�、KGN細(xì)胞
Caov-4 Cells;背景說明:卵巢癌;女性;傳代方法:1:2-1:3傳代����;每周換液2-3次���。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:IR983F細(xì)胞�、Cor L51細(xì)胞、SW13細(xì)胞
BC-022 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代���;每周換液2-3次�。;生長特性:貼壁或懸浮���,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:EL-4細(xì)胞��、COLO 206F細(xì)胞��、RPMI-7666細(xì)胞
Hs611T Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代�;每周換液2-3次����。;生長特性:混合型;形態(tài)特性:淋巴母細(xì)胞樣;相關(guān)產(chǎn)品有:B16-F0細(xì)胞、MFD-1細(xì)胞���、NCIH1385細(xì)胞
GM07404 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代;生長特性:貼壁生長 ;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:639-V細(xì)胞�����、Pa017C細(xì)胞�����、OCI/AML-5細(xì)胞
NIH:OVCAR3 Cells;背景說明:該細(xì)胞1982年由T.C. Hamilton等建系��,源自一位60卵巢腺癌的腹水����,是卵巢癌抗藥性研究的模型。;傳代方法:1:2—1:4傳代����,每周換液2—3次;生長特性:貼壁生長;形態(tài)特性:上皮細(xì)胞樣;相關(guān)產(chǎn)品有:NRK 52E細(xì)胞、Epstein-Barr-2細(xì)胞���、SR細(xì)胞
PLA801C Cells;背景說明:肺巨細(xì)胞癌;傳代方法:1:2-1:3傳代����;每周換液2-3次���。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:MBT-2細(xì)胞���、CCD-19Lu細(xì)胞、Experimental Mammary Tumour-6細(xì)胞
OACP4C Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代��;每周換液2-3次。;生長特性:貼壁或懸浮��,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:B-cell Acute Lymphoblastic Leukemia-1細(xì)胞����、EOC 20細(xì)胞�、NB-4細(xì)胞
NCIH1563 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:3-1:4傳代;每周換液2次��。;生長特性:貼壁生長;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:GM03570E細(xì)胞��、COLO-738細(xì)胞���、TOV112D細(xì)胞
CEM Cells;背景說明:G.E. Foley 等人建立了類淋巴母細(xì)胞細(xì)胞株CCRF-CEM�。 細(xì)胞是1964年11月從一位四歲白人女性急性淋巴細(xì)胞白血病患者的外周血白血球衣中得到�。此細(xì)胞系從香港收集而來。;傳代方法:1:2傳代�。3天內(nèi)可長滿。;生長特性:懸浮生長;形態(tài)特性:淋巴母細(xì)胞樣;相關(guān)產(chǎn)品有:Stanford University-Diffuse Histiocytic Lymphoma-4細(xì)胞��、HEK-293H細(xì)胞���、H740細(xì)胞
RH-35 Cells;背景說明:在糖皮質(zhì)激素���、胰島素或cAMP衍生物的誘導(dǎo)下可以產(chǎn)生酪酸基轉(zhuǎn)移酶���;可被逆轉(zhuǎn)錄病毒感染;可產(chǎn)生白蛋白����、轉(zhuǎn)鐵蛋白、凝血酶原�;在AxC大鼠中可以成瘤。;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:上皮樣;相關(guān)產(chǎn)品有:H-2452細(xì)胞���、Psi2-DAP細(xì)胞����、H498細(xì)胞
JROECL 33 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:上皮樣;相關(guān)產(chǎn)品有:HOCF細(xì)胞���、BHK細(xì)胞�、C3H10T1/2CL8細(xì)胞
CHP 100 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代�;每周換液2-3次。;生長特性:貼壁或懸浮����,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:PANC3.27細(xì)胞、RWPE-1細(xì)胞、Hs-611-T細(xì)胞
SNU-C1 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:每3-5天換液���。;生長特性:懸浮生長;形態(tài)特性:上皮細(xì)胞;相關(guān)產(chǎn)品有:NGP細(xì)胞���、GLAG-66細(xì)胞�、Ly7細(xì)胞
KYSE180 Cells;背景說明:食管鱗癌;男性;傳代方法:1:2-1:3傳代�����;每周換液2-3次��。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:RSC-96細(xì)胞�����、SU4細(xì)胞��、JROECL21細(xì)胞
KPL-4 Cells;背景說明:炎性乳腺癌���;胸腔積液轉(zhuǎn)移����;女性;傳代方法:1:2-1:3傳代;每周換液2-3次���。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:NCIH1417細(xì)胞��、SW626細(xì)胞�����、BMDC細(xì)胞
Dx5 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:8傳代�����;每周2-3次��。;生長特性:貼壁生長;形態(tài)特性:成纖維細(xì)胞樣 ;相關(guān)產(chǎn)品有:NCI-UMC-11細(xì)胞���、Saos2細(xì)胞、GT39細(xì)胞
A375P-beta6/puro Cells(提供STR鑒定圖譜)
Abcam PC-3 FTL KO Cells(提供STR鑒定圖譜)
B5KTu Cells(提供STR鑒定圖譜)
BayGenomics ES cell line RRR022 Cells(提供STR鑒定圖譜)
BayGenomics ES cell line YHC454 Cells(提供STR鑒定圖譜)
CENSOi048-A Cells(提供STR鑒定圖譜)
DA01391 Cells(提供STR鑒定圖譜)
EDS 105 Cells(提供STR鑒定圖譜)
GM05485 Cells(提供STR鑒定圖譜)
M619 Cells;背景說明:脈絡(luò)膜黑色素瘤����;女性;傳代方法:1:2-1:3傳代;每周換液2-3次�。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:H498細(xì)胞、PC-10細(xì)胞��、UM-RC-2細(xì)胞
HCT-15人結(jié)直腸腺癌細(xì)胞代次低|培養(yǎng)基|送STR圖譜
C2-C12 Cells;背景說明:該細(xì)胞株是YaffeD,SaxelO建立的小鼠成肌細(xì)胞系的亞株。該細(xì)胞分化較快��,可形成能收縮的微管���,產(chǎn)生特異的肌肉蛋白�����。在骨形態(tài)形成蛋白(BMP-2)的作用下����,該細(xì)胞可由成肌細(xì)胞分化為成骨細(xì)胞����。檢測(cè)發(fā)現(xiàn)該細(xì)胞鼠痘病毒陰性���。;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:成纖維細(xì)胞樣���;梭形;相關(guān)產(chǎn)品有:AQ-Mel細(xì)胞、WEHI3細(xì)胞���、KYSE-450細(xì)胞
I90 Cells;背景說明:W.W. Nichols及其同事從一位16周女嬰的肺中取材���,建立了人二倍體成纖維細(xì)胞株IMR-90���。分裂潛能,病毒感受性和其它性質(zhì)都得到了充分研究�����,因而這株細(xì)胞可以作為WI-38或其它標(biāo)準(zhǔn)人肺細(xì)胞株的替代株。有報(bào)道稱這株細(xì)胞在表現(xiàn)出衰老前可倍增58次��。;傳代方法:1:2傳代;生長特性:貼壁生長 ;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:MES 13細(xì)胞����、SW1463細(xì)胞、INS-1細(xì)胞
Hs 766 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2—1:8傳代����,每周換液2—3次;生長特性:貼壁生長;形態(tài)特性:上皮細(xì)胞;相關(guān)產(chǎn)品有:SUM52PE細(xì)胞、A172細(xì)胞�、HF-91細(xì)胞
OVCAR5 Cells;背景說明:卵巢癌;腹水轉(zhuǎn)移�;女性;傳代方法:1:2-1:3傳代�;每周換液2-3次����。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:SK-NSH細(xì)胞、C3H10T1/2 clone8細(xì)胞���、H524細(xì)胞
HARAB Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代����;每周換液2-3次�����。;生長特性:貼壁或懸浮���,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:EA. hy 926細(xì)胞、Jurkat FHCRC細(xì)胞����、FUOV1細(xì)胞
A20-eGFP-Neo/Fluc-Puro Cells(提供STR鑒定圖譜)
LAN-1 Cells;背景說明:神經(jīng)母細(xì)胞瘤;骨髓轉(zhuǎn)移��;男性;傳代方法:1:2-1:3傳代�����;每周換液2-3次。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:NCIH460細(xì)胞����、KMM1細(xì)胞、BTI-Tn5B14細(xì)胞
HDQP1 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代�;每周換液2-3次。;生長特性:貼壁或懸浮�,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:Tissue Culture-1細(xì)胞、HuP-T4細(xì)胞���、Ect1/E6E7細(xì)胞
OVCA-433 Cells;背景說明:卵巢癌�����;女性;傳代方法:1:2-1:3傳代���;每周換液2-3次。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:HOS細(xì)胞����、NCC-IT細(xì)胞、Bowes melanoma cells細(xì)胞
TSUpr1 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:上皮細(xì)胞樣;相關(guān)產(chǎn)品有:SNU761細(xì)胞��、UCLA NPA871細(xì)胞、KG1細(xì)胞
OCI-LY-8 Cells;背景說明:彌漫大B淋巴瘤;傳代方法:1:2-1:3傳代����;每周換液2-3次。;生長特性:懸浮;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:SKO007細(xì)胞�����、NCI-H2591細(xì)胞�����、HOP-62細(xì)胞
H4IIEC3 Cells;背景說明:在糖皮質(zhì)激素���、胰島素或cAMP衍生物的誘導(dǎo)下可以產(chǎn)生酪酸基轉(zhuǎn)移酶���;可被逆轉(zhuǎn)錄病毒感染���;可產(chǎn)生白蛋白���、轉(zhuǎn)鐵蛋白、凝血酶原�����;在AxC大鼠中可以成瘤。;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:上皮樣;相關(guān)產(chǎn)品有:Virginia Mason Research Center-Lung Cancer D細(xì)胞���、MM1-S細(xì)胞���、HCC2108細(xì)胞
NCI-H378 Cells;背景說明:小細(xì)胞肺癌;胸腔積液轉(zhuǎn)移��;女性;傳代方法:1:2-1:3傳代����;每周換液2-3次。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:WRL-68細(xì)胞���、RC-4B細(xì)胞��、KHYG細(xì)胞
SBC-5 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:每周換液2-3次�。;生長特性:貼壁或懸浮�����,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:SACC-LM細(xì)胞、Soleus clone 8細(xì)胞�、253J-Bladder-V細(xì)胞
GM11071 Cells(提供STR鑒定圖譜)
HAP1 CMTM6 (-) 2 Cells(提供STR鑒定圖譜)
P-388D1 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代;每周換液2-3次�。;生長特性:懸浮;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:OV1063細(xì)胞、L-Wnt3A細(xì)胞�����、Neuro 2a細(xì)胞
KM12SM Cells;背景說明:結(jié)腸癌;傳代方法:1:2-1:3傳代�����;每周換液2-3次��。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:OV90細(xì)胞����、16-HBEo細(xì)胞、SW 948細(xì)胞
H4IIEC3 Cells;背景說明:在糖皮質(zhì)激素�����、胰島素或cAMP衍生物的誘導(dǎo)下可以產(chǎn)生酪酸基轉(zhuǎn)移酶�����;可被逆轉(zhuǎn)錄病毒感染�;可產(chǎn)生白蛋白、轉(zhuǎn)鐵蛋白�����、凝血酶原��;在AxC大鼠中可以成瘤����。;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:上皮樣;相關(guān)產(chǎn)品有:Virginia Mason Research Center-Lung Cancer D細(xì)胞、MM1-S細(xì)胞�、HCC2108細(xì)胞
SACC-LM Cells;背景說明:涎腺腺樣囊性癌;傳代方法:1:2-1:3傳代;每周換液2-3次�����。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:HIEC6細(xì)胞��、HCC-1187細(xì)胞�、Tu-177細(xì)胞
LOU-NH91 Cells;背景說明:肺鱗癌;女性;傳代方法:1:2-1:3傳代�;每周換液2-3次。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:CAL-33細(xì)胞����、MDA-MB-468細(xì)胞��、RINm-5F細(xì)胞
MBT2 Cells;背景說明:膀胱移行細(xì)胞癌��;C3H/He;傳代方法:1:2-1:3傳代����;每周換液2-3次�����。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:PC-9/GR細(xì)胞����、M-14細(xì)胞、MHCC97H細(xì)胞
SK-N-BE(2)C Cells;背景說明:神經(jīng)母細(xì)胞瘤��;骨髓轉(zhuǎn)移��;男性;傳代方法:1:2-1:3傳代�;每周換液2-3次。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:MDA-MB157細(xì)胞�、NCI-H64細(xì)胞、J-111細(xì)胞
NCIH2009 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:每周換液2-3次����。;生長特性:貼壁生長;形態(tài)特性:上皮細(xì)胞;相關(guān)產(chǎn)品有:FD-LSC-1細(xì)胞�、CCD1095Sk細(xì)胞�����、CT26.WT細(xì)胞
HG04238 Cells(提供STR鑒定圖譜)
IMR-32rCDDP1000 Cells(提供STR鑒定圖譜)
LXF 297 Cells(提供STR鑒定圖譜)
ND04377 Cells(提供STR鑒定圖譜)
PECA-4197 Cells(提供STR鑒定圖譜)
Ubigene HEK293 CACNA2D1 KO Cells(提供STR鑒定圖譜)
WDV Cells(提供STR鑒定圖譜)
HAP1 TEX2 (-) 1 Cells(提供STR鑒定圖譜)
QGY7701 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:消化3-5分鐘�,1:2,3天內(nèi)可長滿;生長特性:貼壁生長;形態(tài)特性:上皮樣;相關(guān)產(chǎn)品有:U343細(xì)胞���、CX1細(xì)胞����、AM細(xì)胞
INS1 Cells;背景說明:該細(xì)胞源自X射線照射的移植胰島瘤的大鼠��,胰島素陽性����,可合成胰島素原I和II,可用于beta細(xì)胞功能研究�。;傳代方法:1:3—1:6傳代,每周換液2—3次;生長特性:貼壁生長;形態(tài)特性:不規(guī)則����,多角;相關(guān)產(chǎn)品有:OVCAR-8細(xì)胞���、L5178Y TK+/- (clone 3.7.2C)細(xì)胞����、MRCV細(xì)胞
MO59J Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:6-1:8傳代��;每周換液2-3次���。;生長特性:貼壁生長;形態(tài)特性:成纖維細(xì)胞;相關(guān)產(chǎn)品有:PIG3細(xì)胞��、LICR-LON-HN6細(xì)胞����、TE7細(xì)胞
Panc 4.03 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:上皮樣;相關(guān)產(chǎn)品有:WEHI-3細(xì)胞、RTE細(xì)胞、NCI-H2452細(xì)胞
PC 12 Cells;背景說明:該細(xì)胞系來自能移植的雄性大鼠腎上腺嗜鉻細(xì)胞瘤��。這些細(xì)胞表達(dá)神經(jīng)生長因子(NGF)受體���。NGF可誘導(dǎo)產(chǎn)生神經(jīng)表型。這些細(xì)胞不合成���。;傳代方法:消化3-5分鐘��。1:2�����。3天內(nèi)可長滿。;生長特性:貼壁生長;形態(tài)特性:多角形;相關(guān)產(chǎn)品有:RPMI-2650細(xì)胞、RPMI 6666細(xì)胞、SKN-SH細(xì)胞
Hs839T Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代�����,2-3天換液1次�����。;生長特性:貼壁生長;形態(tài)特性:成纖維細(xì)胞;相關(guān)產(chǎn)品有:U-87MG ATCC細(xì)胞���、PANC0203細(xì)胞�����、SK-Hep1細(xì)胞
CFSC-8B Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代;每周換液2-3次���。;生長特性:貼壁或懸浮���,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:L-6 myoblast細(xì)胞、HCAEC細(xì)胞���、M20 [Human melanoma]細(xì)胞
UMRC-2 Cells;背景說明:腎透明細(xì)胞癌;傳代方法:1:2-1:3傳代����;每周換液2-3次。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:RBL細(xì)胞����、NCI-H740細(xì)胞、CMT-93細(xì)胞
HBE Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代;生長特性:貼壁生長 ;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:NCI-446細(xì)胞����、RL細(xì)胞、mIMCD3細(xì)胞
H2171 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:3-4天換液1次����。;生長特性:懸浮生長;形態(tài)特性:聚團(tuán)懸浮;相關(guān)產(chǎn)品有:LS513細(xì)胞、293T/17細(xì)胞�、HSC-4細(xì)胞
HS-695T Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:4傳代,2-3天換液1次���。;生長特性:貼壁生長;形態(tài)特性:上皮細(xì)胞;相關(guān)產(chǎn)品有:HCV29細(xì)胞�����、SCC 25細(xì)胞���、L M (TK-)細(xì)胞
Hs839.T Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2傳代����,2-3天換液1次����。;生長特性:貼壁生長;形態(tài)特性:成纖維細(xì)胞;相關(guān)產(chǎn)品有:SCC154細(xì)胞、VMM39細(xì)胞�、Becker細(xì)胞
Ly3 Cells;背景說明:彌漫大B淋巴瘤;男性;傳代方法:1:2-1:3傳代����;每周換液2-3次。;生長特性:懸浮;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:NCI-H295R細(xì)胞�����、MDA-MB-330細(xì)胞����、LLC-WRC 256細(xì)胞
P-815 Cells;背景說明:肥大細(xì)胞瘤�;雄性;DBA/2;傳代方法:1:2-1:3傳代�����;每周換液2-3次。;生長特性:懸浮;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:P3-X63-Ag8細(xì)胞���、Human fetal lung fibroblast 1細(xì)胞����、Panc-327細(xì)胞
NS1-1 Ag4.1 Cells;背景說明:這是P3X63Ag8(ATCCTIB-9)的一個(gè)不分泌克隆��。Kappa鏈合成了但不分泌�。能抗0.1mM8-氮雜鳥嘌呤但不能在HAT培養(yǎng)基中生長。據(jù)報(bào)道它是由于缺失了3-酮類固醇還原酶活性的膽固醇營養(yǎng)缺陷型�����。檢測(cè)表明肢骨發(fā)育畸形病毒(鼠痘)陰性��。;傳代方法:1:2傳代�����,3天內(nèi)可長滿�。;生長特性:懸浮生長;形態(tài)特性:淋巴母細(xì)胞;相關(guān)產(chǎn)品有:H-1238細(xì)胞、PANC1005細(xì)胞���、EB3 [Human Burkitt lymphoma]細(xì)胞
SCVIi103-A Cells(提供STR鑒定圖譜)
MOLP2 Cells;背景說明:骨髓瘤��;男性;傳代方法:1:2-1:3傳代���;每周換液2-3次�。;生長特性:懸浮;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:MDA231細(xì)胞�、Panc2.03細(xì)胞、PTK1細(xì)胞
SU-DHL-16 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代���;每周換液2-3次����。;生長特性:貼壁或懸浮��,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:RH8994細(xì)胞�、NPC-TW 01細(xì)胞、H184A1細(xì)胞
HcaF Cells;背景說明:肝癌;傳代方法:1:2-1:3傳代��;每周換液2-3次��。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:H8細(xì)胞���、YD-15細(xì)胞���、RT-112細(xì)胞
MT-2J Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代;生長特性:懸浮生長;形態(tài)特性:淋巴母細(xì)胞;相關(guān)產(chǎn)品有:SKNAS細(xì)胞、FUOV1細(xì)胞�、293/EBNA細(xì)胞
Ls-174-T Cells;背景說明:LS 174T是LS 180 (ATCC CL 187)結(jié)腸腺癌細(xì)胞株的胰蛋白酶化變種。 它比親本更易傳代�����,象LS 180一樣生成大量的癌胚抗原(CEA)�����。 電鏡研究表明有豐富的微絲和細(xì)胞質(zhì)粘液素液泡����。 直腸抗原3陽性。 p53抗原表達(dá)陰性��,但mRNA表達(dá)陽性���。 與ATCC CL-187來源于同一個(gè)腫瘤�。LS 174T細(xì)胞角蛋白染色陽性����。 癌基因c-myc, N-myc, H-ras, N-ras, Myb, 和 fos的表達(dá)呈陽性��。 癌基因k-ras和sis的表達(dá)未做檢測(cè)���。;傳代方法:1:2傳代;生長特性:貼壁生長;形態(tài)特性:上皮樣;相關(guān)產(chǎn)品有:H87細(xì)胞、MC-CAR細(xì)胞�����、RMS13細(xì)胞
KYSE0030 Cells;背景說明:來源于一位64歲���,患有高分化的中段食管鱗癌的男性患者��。;傳代方法:1:2-1:3傳代�����;每周換液2-3次�����。;生長特性:貼壁;形態(tài)特性:上皮細(xì)胞樣;相關(guān)產(chǎn)品有:hOMF細(xì)胞��、P31/Fujioka細(xì)胞��、Human Epithelioma-2細(xì)胞
HCT-15人結(jié)直腸腺癌細(xì)胞代次低|培養(yǎng)基|送STR圖譜
RWPE-2 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:3傳代,2-3天傳一代�。;生長特性:貼壁生長;形態(tài)特性:上皮細(xì)胞;相關(guān)產(chǎn)品有:C 643細(xì)胞、SF-539細(xì)胞����、NT2D1細(xì)胞
KTCTL-140 Cells;背景說明:腎透明細(xì)胞癌����;女性;傳代方法:1:2-1:3傳代;每周換液2-3次�����。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:C518細(xì)胞��、COLO 684細(xì)胞�、H-1954細(xì)胞
COR-L51 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:2-1:3傳代;每周換液2-3次����。;生長特性:貼壁或懸浮,詳見產(chǎn)品說明書部分;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:C26細(xì)胞����、MC/9細(xì)胞、LM8細(xì)胞
KE 37 Cells;背景說明:急性T淋巴細(xì)胞白血??���;男性;傳代方法:1:2-1:3傳代����;每周換液2-3次。;生長特性:懸浮;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:SU-DHL-4細(xì)胞�����、OPM2細(xì)胞�、C33A細(xì)胞
OSC-19 Cells;背景說明:舌鱗癌;男性;傳代方法:1:2-1:3傳代����;每周換液2-3次。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:BE2_C細(xì)胞���、HNE-3細(xì)胞�����、HCEpiC細(xì)胞
B16/BL6 Cells;背景說明:黑色素瘤���;雄性��;C57BL/6;傳代方法:1:2-1:3傳代����;每周換液2-3次�����。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:ketr 3細(xì)胞�、KYSE 30細(xì)胞�����、Leukemic 1210細(xì)胞
C4-2B Cells;背景說明:前列腺癌�����;左鎖骨上淋巴結(jié)轉(zhuǎn)移���;男性;傳代方法:1:2-1:3傳代�;每周換液2-3次���。;生長特性:貼壁;形態(tài)特性:詳見產(chǎn)品說明書;相關(guān)產(chǎn)品有:Farage OL細(xì)胞�����、NOMO-1細(xì)胞��、Fetal Bovine Heart Endothelial細(xì)胞
LS-1034 Cells;背景說明:詳見相關(guān)文獻(xiàn)介紹;傳代方法:1:3傳代�����,每周2-3次;生長特性:貼壁生長;形態(tài)特性:上皮細(xì)胞樣;相關(guān)產(chǎn)品有:BNL.CL2細(xì)胞��、NIH-3T3細(xì)胞�����、LP-1細(xì)胞
BayGenomics ES cell line NPX384 Cells(提供STR鑒定圖譜)
BayGenomics ES cell line XC614 Cells(提供STR鑒定圖譜)
CPTC-HSPB1-1 Cells(提供STR鑒定圖譜)
MC/9 Cells(提供STR鑒定圖譜)
SC34.18 Cells(提供STR鑒定圖譜)
LLC-M3 Cells(提供STR鑒定圖譜)
" "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=8464898; DOI=10.1073/pnas.90.7.2842; PMCID=PMC46192
Browning M.J., Krausa P., Rowan A.J., Bicknell D.C., Bodmer J.G., Bodmer W.F.
Tissue typing the HLA-A locus from genomic DNA by sequence-specific PCR: comparison of HLA genotype and surface expression on colorectal tumor cell lines.
Proc. Natl. Acad. Sci. U.S.A. 90:2842-2845(1993)
PubMed=7972006; DOI=10.1073/pnas.91.23.11045; PMCID=PMC45163
Okamoto A., Demetrick D.J., Spillare E.A., Hagiwara K., Hussain S.P., Bennett W.P., Forrester K., Gerwin B.I., Serrano M., Beach D.H., Harris C.C.
Mutations and altered expression of p16INK4 in human cancer.
Proc. Natl. Acad. Sci. U.S.A. 91:11045-11049(1994)
PubMed=8197130; DOI=10.1073/pnas.91.11.4751; PMCID=PMC43866
Bicknell D.C., Rowan A.J., Bodmer W.F.
Beta 2-microglobulin gene mutations: a study of established colorectal cell lines and fresh tumors.
Proc. Natl. Acad. Sci. U.S.A. 91:4751-4755(1994)
PubMed=7621404; DOI=10.1016/0165-4608(94)00225-z
Chen T.-R., Dorotinsky C.S., McGuire L.J., Macy M.L., Hay R.J.
DLD-1 and HCT-15 cell lines derived separately from colorectal carcinomas have totally different chromosome changes but the same genetic origin.
Cancer Genet. Cytogenet. 81:103-108(1995)
PubMed=9000147
Cottu P.-H., Muzeau F., Estreicher A., Flejou J.-F., Iggo R.D., Thomas G., Hamelin R.
Inverse correlation between RER+ status and p53 mutation in colorectal cancer cell lines.
Oncogene 13:2727-2730(1996)
PubMed=9000572
Hoang J.-M., Cottu P.-H., Thuille B., Salmon R.J., Thomas G., Hamelin R.
BAT-26, an indicator of the replication error phenotype in colorectal cancers and cell lines.
Cancer Res. 57:300-303(1997)
PubMed=9809040; DOI=10.1016/S0165-4608(98)00081-8
Vermeulen S.J., Chen T.-R., Speleman F., Nollet F., Van Roy F.M., Mareel M.M.
Did the four human cancer cell lines DLD-1, HCT-15, HCT-8, and HRT-18 originate from one and the same patient?
Cancer Genet. Cytogenet. 107:76-79(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=10737795; DOI=10.1073/pnas.97.7.3352; PMCID=PMC16243
Rowan A.J., Lamlum H., Ilyas M., Wheeler J.M.D., Straub J., Papadopoulou A., Bicknell D.C., Bodmer W.F., Tomlinson I.P.M.
APC mutations in sporadic colorectal tumors: a mutational 'hotspot' and interdependence of the 'two hits'.
Proc. Natl. Acad. Sci. U.S.A. 97:3352-3357(2000)
PubMed=11314036; DOI=10.1038/sj.onc.1204211
Forgacs E., Wren J.D., Kamibayashi C., Kondo M., Xu X.L., Markowitz S.D., Tomlinson G.E., Muller C.Y., Gazdar A.F., Garner H.R., Minna J.D.
Searching for microsatellite mutations in coding regions in lung, breast, ovarian and colorectal cancers.
Oncogene 20:1005-1009(2001)
PubMed=11414198; DOI=10.1007/s004320000207
Lahm H., Andre S., Hoeflich A., Fischer J.R., Sordat B., Kaltner H., Wolf E., Gabius H.-J.
Comprehensive galectin fingerprinting in a panel of 61 human tumor cell lines by RT-PCR and its implications for diagnostic and therapeutic procedures.
J. Cancer Res. Clin. Oncol. 127:375-386(2001)
PubMed=11416159; DOI=10.1073/pnas.121616198; PMCID=PMC35459
Masters J.R.W., Thomson J.A., Daly-Burns B., Reid Y.A., Dirks W.G., Packer P., Toji L.H., Ohno T., Tanabe H., Arlett C.F., Kelland L.R., Harrison M., Virmani A.K., Ward T.H., Ayres K.L., Debenham P.G.
Short tandem repeat profiling provides an international reference standard for human cell lines.
Proc. Natl. Acad. Sci. U.S.A. 98:8012-8017(2001)
PubMed=11526487; DOI=10.1038/sj.onc.1204611
Gayet J., Zhou X.-P., Duval A., Rolland S., Hoang J.-M., Cottu P.-H., Hamelin R.
Extensive characterization of genetic alterations in a series of human colorectal cancer cell lines.
Oncogene 20:5025-5032(2001)
PubMed=11668190; DOI=10.1177/002215540104901105
Quentmeier H., Osborn M., Reinhardt J., Zaborski M., Drexler H.G.
Immunocytochemical analysis of cell lines derived from solid tumors.
J. Histochem. Cytochem. 49:1369-1378(2001)
PubMed=12584437; DOI=10.1159/000068544
Melcher R., Koehler S., Steinlein C., Schmid M., Mueller C.R., Luehrs H., Menzel T., Scheppach W., Moerk H., Scheurlen M., Koehrle J., Al-Taie O.
Spectral karyotype analysis of colon cancer cell lines of the tumor suppressor and mutator pathway.
Cytogenet. Genome Res. 98:22-28(2002)
PubMed=15748285; DOI=10.1186/1479-5876-3-11; PMCID=PMC555742
Adams S., Robbins F.-M., Chen D., Wagage D., Holbeck S.L., Morse H.C. 3rd, 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=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=16854228; DOI=10.1186/1476-4598-5-29; PMCID=PMC1550420
Bandres Elizalde E.M., Cubedo E., Agirre X., Malumbres R., Zarate R., Ramirez N., Abajo A., Navarro A., Moreno I., Monzo M., Garcia-Foncillas J.
Identification by real-time PCR of 13 mature microRNAs differentially expressed in colorectal cancer and non-tumoral tissues.
Mol. Cancer 5:29.1-29.10(2006)
PubMed=17088437; DOI=10.1158/1535-7163.MCT-06-0433; PMCID=PMC2705832
Ikediobi O.N., Davies H.R., 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., Miroo 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=18167186; DOI=10.5555/cmj.0366-6999.120.23.p2119.01
Liu W.-D., Zhong B.-Y., Zhang Y.-D., Choi G.-S.
Mutation analysis of the checkpoint kinase 2 gene in colorectal cancer cell lines.
Chin. Med. J. 120:2119-2123(2007)
PubMed=19372543; DOI=10.1158/1535-7163.MCT-08-0921; PMCID=PMC4020356
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=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=20570890; DOI=10.1158/0008-5472.CAN-10-0192; PMCID=PMC2943514
Janakiraman M., Vakiani E., Zeng Z.-S., Pratilas C.A., Taylor B.S., Chitale D., Halilovic E., Wilson M., Huberman K., Ricarte Filho J.C.M., Persaud Y., Levine D.A., Fagin J.A., Jhanwar S.C., Mariadason J.M., Lash A., Ladanyi M., Saltz L.B., Heguy A., Paty P.B., Solit D.B.
Genomic and biological characterization of exon 4 KRAS mutations in human cancer.
Cancer Res. 70:5901-5911(2010)
PubMed=20606684; DOI=10.1038/sj.bjc.6605780; PMCID=PMC2920028
Bracht K., Nicholls A.M., Liu Y., Bodmer W.F.
5-fluorouracil response in a large panel of colorectal cancer cell lines is associated with mismatch repair deficiency.
Br. J. Cancer 103:340-346(2010)
PubMed=22068913; DOI=10.1073/pnas.1111840108; PMCID=PMC3219108
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=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=22347499; DOI=10.1371/journal.pone.0031628; PMCID=PMC3276511
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; PMCID=PMC3285665
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; 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=22628656; DOI=10.1126/science.1218595; PMCID=PMC3526189
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=23856246; DOI=10.1158/0008-5472.CAN-12-3342; PMCID=PMC4893961
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=24042735; DOI=10.1038/oncsis.2013.35; PMCID=PMC3816225
Ahmed D., Eide P.W., Eilertsen I.A., Danielsen S.A., Eknaes M., Hektoen M., Lind G.E., Lothe R.A.
Epigenetic and genetic features of 24 colon cancer cell lines.
Oncogenesis 2:e71.1-e71.8(2013)
PubMed=24279929; DOI=10.1186/2049-3002-1-20; PMCID=PMC4178206
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; PMCID=PMC3966786
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=24755471; DOI=10.1158/0008-5472.CAN-14-0013
Mouradov D., Sloggett C., Jorissen R.N., Love C.G., Li S., Burgess A.W., Arango D., Strausberg R.L., Buchanan D., Wormald S., O'Connor L., Wilding J.L., Bicknell D.C., Tomlinson I.P.M., Bodmer W.F., Mariadason J.M., Sieber O.M.
Colorectal cancer cell lines are representative models of the main molecular subtypes of primary cancer.
Cancer Res. 74:3238-3247(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=25926053; DOI=10.1038/ncomms8002
Medico E., Russo M., Picco G., Cancelliere C., Valtorta E., Corti G., Buscarino M., Isella C., Lamba S., Martinoglio B., Veronese S., Siena S., Sartore-Bianchi A., Beccuti M., Mottolese M., Linnebacher M., Cordero F., Di Nicolantonio F., Bardelli A.
The molecular landscape of colorectal cancer cell lines unveils clinically actionable kinase targets.
Nat. Commun. 6:7002.1-7002.10(2015)
PubMed=25944804; DOI=10.1158/1078-0432.CCR-14-2457
Bazzocco S., Dopeso H., Carton-Garcia F., Macaya I., Andretta E., Chionh F., Rodrigues P., Garrido M., Alazzouzi H., Nieto R., Sanchez A., Schwartz S. Jr., Bilic J., Mariadason J.M., Arango D.
Highly expressed genes in rapidly proliferating tumor cells as new targets for colorectal cancer treatment.
Clin. Cancer Res. 21:3695-3704(2015)
PubMed=26169745; DOI=10.1186/s12967-015-0576-z; PMCID=PMC4499939
Halama A., Guerrouahen B.S., Pasquier J., Diboun I., Karoly E.D., Suhre K., Rafii A.
Metabolic signatures differentiate ovarian from colon cancer cell lines.
J. Transl. Med. 13:223.1-223.12(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=26537799; DOI=10.1074/mcp.M115.051235; PMCID=PMC4762531
Holst S., Deuss A.J.M., van Pelt G.W., van Vliet S.J., Garcia-Vallejo J.J., Koeleman C.A.M., Deelder A.M., Mesker W.E., Tollenaar R.A.E.M., Rombouts Y., Wuhrer M.
N-glycosylation profiling of colorectal cancer cell lines reveals association of fucosylation with differentiation and caudal type homebox 1 (CDX1)/villin mRNA expression.
Mol. Cell. Proteomics 15:124-140(2016)
PubMed=27377824; DOI=10.1038/sdata.2016.52; PMCID=PMC4932877
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; 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., Miroo 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; PMCID=PMC5087121
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=28179481; DOI=10.1158/1535-7163.MCT-16-0578
Tanaka N., Mashima T., Mizutani A., Sato A., Aoyama A., Gong B., Yoshida H., Muramatsu Y., Nakata K., Matsuura M., Katayama R., Nagayama S., Fujita N., Sugimoto Y., Seimiya H.
APC mutations as a potential biomarker for sensitivity to tankyrase inhibitors in colorectal cancer.
Mol. Cancer Ther. 16:752-762(2017)
PubMed=28192450; DOI=10.1371/journal.pone.0171435; PMCID=PMC5305277
Fasterius E., Raso C., Kennedy S.A., Rauch N., Lundin P., Kolch W., Uhlen M., Al-Khalili Szigyarto C.
A novel RNA sequencing data analysis method for cell line authentication.
PLoS ONE 12:E0171435-E0171435(2017)
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=28683746; DOI=10.1186/s12943-017-0691-y; PMCID=PMC5498998
Berg K.C.G., Eide P.W., Eilertsen I.A., Johannessen B., Bruun J., Danielsen S.A., Bjornslett M., Meza-Zepeda L.A., Eknaes M., Lind G.E., Myklebost O., Skotheim R.I., Sveen A., Lothe R.A.
Multi-omics of 34 colorectal cancer cell lines -- a resource for biomedical studies.
Mol. Cancer 16:116.1-116.16(2017)
PubMed=28854368; DOI=10.1016/j.celrep.2017.08.010; PMCID=PMC5583477
Roumeliotis T.I., Williams S.P., Goncalves E., Alsinet C., Del Castillo Velasco-Herrera M., Aben N., Ghavidel F.Z., Michaut M., Schubert M., Price S., Wright J.C., Yu L., Yang M., Dienstmann R., Guinney J.H., Beltrao P., Brazma A., Pardo M., Stegle O., Adams D.J., Wessels L.F.A., Saez-Rodriguez J., McDermott U., Choudhary J.S.
Genomic determinants of protein abundance variation in colorectal cancer cells.
Cell Rep. 20:2201-2214(2017)
PubMed=29444439; DOI=10.1016/j.celrep.2018.01.051; PMCID=PMC6343826
Yuan T.L., Amzallag A., Bagni R., Yi M., Afghani S., Burgan W., Fer N., Strathern L.A., Powell K., Smith B., Waters A.M., Drubin D.A., Thomson T., Liao R., Greninger P., Stein G.T., Murchie E., Cortez E., Egan R.K., Procter L., Bess M., Cheng K.T., Lee C.-S., Lee L.C., Fellmann C., Stephens R., Luo J., Lowe S.W., Benes C.H., McCormick F.
Differential effector engagement by oncogenic KRAS.
Cell Rep. 22:1889-1902(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)"
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