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SK-CO-1Homo sapiens (Human)Cancer cell line

Also known as: SK Col 1, SK-Col-1, SKCol1, SKCO1, SKCO 1, SKCO-1

🤖 AI SummaryBased on 15 publications

Quick Overview

Human colorectal cancer cell line for cancer research and drug testing.

Detailed Summary

SK-CO-1 is a human colorectal cancer cell line derived from a primary tumor. It is widely used in cancer research to study the molecular mechanisms of colorectal cancer and to test the efficacy of anticancer drugs. The cell line has been characterized for its genetic and molecular features, including mutations in key oncogenes and tumor suppressor genes, which make it a valuable model for understanding cancer progression and therapeutic responses. Research on SK-CO-1 has contributed to the identification of potential biomarkers and therapeutic targets in colorectal cancer.
Generated on 6/15/2025

Basic Information

Database IDCVCL_0626
SpeciesHomo sapiens (Human)
Tissue SourceAscites[UBERON:UBERON_0007795]

Donor Information

Age65
Age CategoryAdult
SexMale
Racecaucasian

Disease Information

DiseaseColon adenocarcinoma
LineageBowel
SubtypeColon Adenocarcinoma
OncoTree CodeCOAD

DepMap Information

Source TypeATCC
Source IDACH-000400_source

Known Sequence Variations

TypeGene/ProteinDescriptionZygosityNoteSource
MutationNone reportedTP53---PubMed=19787792
MutationSimpleKRASp.Gly12Val (c.35G>T)HeterozygousAcquiredUnknown, Unknown
MutationSimpleGNASp.Arg201Cys (c.601C>T)Heterozygous-Unknown, Unknown
MutationSimpleAPCp.Pro1443fs*30 (c.4328delC)Heterozygous-Unknown, Unknown, Unknown
MutationSimpleAPCp.Phe1089fs*37 (c.3266delT)Heterozygous-Unknown, Unknown, Unknown

Haplotype Information (STR Profile)

Short Tandem Repeat (STR) profile for cell line authentication.

Amelogenin
X
CSF1PO
13
D10S1248
13,14
D12S391
18
D13S317
14
D16S539
13
D18S51
19
D19S433
12,13
D1S1656
13,18.3
D21S11
28,30
D22S1045
15
D2S1338
17,21
D2S441
10,15
D3S1358
17,18
D5S818
9,11
D7S820
8,10
D8S1179
12,14
FGA
20,25
Penta D
11
Penta E
13,16
TH01
8,9
TPOX
8,11
vWA
18,19
Gene Expression Profile
Gene expression levels and statistical distribution
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Full DepMap dataset with combined data across cell lines

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Publications

Pan-cancer proteomic map of 949 human cell lines.";

Robinson P.J., Zhong Q., Garnett M.J., Reddel R.R.

Cancer Cell 40:835-849.e8(2022).

DOIPubMedPMC

Quantitative proteomics of the Cancer Cell Line Encyclopedia.";

Sellers W.R., Gygi S.P.

Cell 180:387-402.e16(2020).

DOIPubMedPMC

Next-generation characterization of the Cancer Cell Line Encyclopedia.

Sellers W.R.

Nature 569:503-508(2019).

DOIPubMedPMC

An interactive resource to probe genetic diversity and estimated ancestry in cancer cell lines.

Dutil J., Chen Z.-H., Monteiro A.N.A., Teer J.K., Eschrich S.A.

Cancer Res. 79:1263-1273(2019).

DOIPubMedPMC

Pharmacoproteomic characterisation of human colon and rectal cancer.

Weichert W., Knapp S., Feller S.M., Kuster B.

Mol. Syst. Biol. 13:951-951(2017).

DOIPubMedPMC

Genomic determinants of protein abundance variation in colorectal cancer cells.

Wessels L.F.A., Saez-Rodriguez J., McDermott U., Choudhary J.S.

Cell Rep. 20:2201-2214(2017).

DOIPubMedPMC

A landscape of pharmacogenomic interactions in cancer.";

Wessels L.F.A., Saez-Rodriguez J., McDermott U., Garnett M.J.

Cell 166:740-754(2016).

DOIPubMedPMC

TCLP: an online cancer cell line catalogue integrating HLA type, predicted neo-epitopes, virus and gene expression.

Loewer M., Sahin U., Castle J.C.

Genome Med. 7:118.1-118.7(2015).

DOIPubMedPMC

Parallel genome-scale loss of function screens in 216 cancer cell lines for the identification of context-specific genetic dependencies.

Golub T.R., Root D.E., Hahn W.C.

Sci. Data 1:140035-140035(2014).

DOIPubMedPMC

Highly expressed genes in rapidly proliferating tumor cells as new targets for colorectal cancer treatment.

Sanchez A., Schwartz S. Jr., Bilic J., Mariadason J.M., Arango D.

Clin. Cancer Res. 21:3695-3704(2015).

DOIPubMed

The molecular landscape of colorectal cancer cell lines unveils clinically actionable kinase targets.

Linnebacher M., Cordero F., Di Nicolantonio F., Bardelli A.

Nat. Commun. 6:7002.1-7002.10(2015).

DOIPubMed

A resource for cell line authentication, annotation and quality control.

Neve R.M.

Nature 520:307-311(2015).

DOIPubMed

A comprehensive transcriptional portrait of human cancer cell lines.

Settleman J., Seshagiri S., Zhang Z.-M.

Nat. Biotechnol. 33:306-312(2015).

DOIPubMed

Colorectal cancer cell lines are representative models of the main molecular subtypes of primary cancer.

Mariadason J.M., Sieber O.M.

Cancer Res. 74:3238-3247(2014).

DOIPubMed

Subtypes of primary colorectal tumors correlate with response to targeted treatment in colorectal cell lines.

Orphanides G., French T., Wessels L.F.A.

BMC Med. Genomics 5:66.1-66.15(2012).

DOIPubMedPMC

The Cancer Cell Line Encyclopedia enables predictive modelling of anticancer drug sensitivity.

Morrissey M.P., Sellers W.R., Schlegel R., Garraway L.A.

Nature 483:603-607(2012).

DOIPubMedPMC

5-fluorouracil response in a large panel of colorectal cancer cell lines is associated with mismatch repair deficiency.

Bracht K., Nicholls A.M., Liu Y., Bodmer W.F.

Br. J. Cancer 103:340-346(2010).

DOIPubMedPMC

Genomic and biological characterization of exon 4 KRAS mutations in human cancer.

Lash A., Ladanyi M., Saltz L.B., Heguy A., Paty P.B., Solit D.B.

Cancer Res. 70:5901-5911(2010).

DOIPubMedPMC

A genome-wide screen for microdeletions reveals disruption of polarity complex genes in diverse human cancers.

Haber D.A.

Cancer Res. 70:2158-2164(2010).

DOIPubMedPMC

Signatures of mutation and selection in the cancer genome.";

Deloukas P., Yang F.-T., Campbell P.J., Futreal P.A., Stratton M.R.

Nature 463:893-898(2010).

DOIPubMedPMC

Definitive molecular cytogenetic characterization of 15 colorectal cancer cell lines.

Camps J., McNeil N.E., Difilippantonio M.J., Ried T.

Genes Chromosomes Cancer 49:204-223(2010).

DOIPubMedPMC

Cell growth, global phosphotyrosine elevation, and c-Met phosphorylation through Src family kinases in colorectal cancer cells.

Emaduddin M., Bicknell D.C., Bodmer W.F., Feller S.M.

Proc. Natl. Acad. Sci. U.S.A. 105:2358-2362(2008).

DOIPubMedPMC

Analysis of p53 mutations and their expression in 56 colorectal cancer cell lines.

Liu Y., Bodmer W.F.

Proc. Natl. Acad. Sci. U.S.A. 103:976-981(2006).

DOIPubMedPMC

Mutations of the BRAF gene in human cancer.";

Marshall C.J., Wooster R., Stratton M.R., Futreal P.A.

Nature 417:949-954(2002).

DOIPubMed

APC mutations in sporadic colorectal tumors: a mutational 'hotspot' and interdependence of the 'two hits'.

Papadopoulou A., Bicknell D.C., Bodmer W.F., Tomlinson I.P.M.

Proc. Natl. Acad. Sci. U.S.A. 97:3352-3357(2000).

DOIPubMedPMC

Beta-catenin mutations in cell lines established from human colorectal cancers.

Ilyas M., Tomlinson I.P.M., Rowan A.J., Pignatelli M., Bodmer W.F.

Proc. Natl. Acad. Sci. U.S.A. 94:10330-10334(1997).

DOIPubMedPMC

HLA-A, B, C and DR alloantigen expression on forty-six cultured human tumor cell lines.

Pollack M.S., Heagney S.D., Livingston P.O., Fogh J.

J. Natl. Cancer Inst. 66:1003-1012(1981).

DOIPubMed

Cell surface antigens of human ovarian and endometrial carcinoma defined by mouse monoclonal antibodies.

Mattes M.J., Cordon-Cardo C., Lewis J.L. Jr., Old L.J., Lloyd K.O.

Proc. Natl. Acad. Sci. U.S.A. 81:568-572(1984).

DOIPubMedPMC

Polymorphic enzyme analysis of cultured human tumor cell lines.";

Dracopoli N.C., Fogh J.

J. Natl. Cancer Inst. 70:469-476(1983).

PubMed

Human tumor lines for cancer research.";

Fogh J.

Cancer Invest. 4:157-184(1986).

DOIPubMed

Absence of HeLa cell contamination in 169 cell lines derived from human tumors.

Fogh J., Wright W.C., Loveless J.D.

J. Natl. Cancer Inst. 58:209-214(1977).

DOIPubMed

New human tumor cell lines.";

Fogh J., Trempe G.L.

(In book chapter) Human tumor cells in vitro; Fogh J. (eds.); pp.115-159; Springer; New York; USA (1975).

DOI

Web Resources

mskcc.org