Add to ORKGUsing 11 proteomics datasets, mostly available through the PRIDE database, we assembled a reference expression map for 191 cancer cell lines and 246 clinical tumour samples, across 13 lineages. We found unique peptides identified only in tumour samples despite a much higher coverage in cell lines. These were mainly mapped to proteins related to regulation of signalling receptor activity. Correlations between baseline expression in cell lines and tumours were calculated. We found these to be highly similar across all samples with most similarity found within a given sample type. Integration of proteomics and transcriptomics data showed median correlation across cell lines to be 0.58 (range between 0.43 and 0.66). Additionally, in agreement w...
Breast-cancer-derived cell lines are an important sample source for cancer proteomics and can be cla...
Abstract Background The classic central dogma in biol...
Background and AimsProteomics holds promise for individualizing cancer treatment. We analyzed to wha...
Using 11 proteomics datasets, mostly available through the PRIDE database, we assembled a reference ...
While the number and identity of proteins expressed in a single human cell type is currently unknown...
The proteome provides unique insights into biology and disease beyond the genome and transcriptome. ...
Abstract Background Transcriptome analysis of breast cancer discovered distinct disease subtypes of ...
SummaryMolecular profiling of cancer at the transcript level has become routine. Large-scale analysi...
Protein levels and function are poorly predicted by genomic and transcriptomic analysis of patient t...
Proteogenomic studies of cancer samples have shown that copy-number variation can be attenuated at t...
Abstract We performed quantitative proteomics on 60 human-derived breast cancer cell line models to ...
Protein levels and function are poorly predicted by genomic and transcriptomic analysis of patient t...
Introduction: Discovery proteomics for cancer research generates complex datasets of diagnostic, pro...
Breast cancer is a complex phenotype (or better yet, several complex phenotypes) characterized by th...
The central dogma of molecular biology describes the translation of genetic information from mRNA to...
Breast-cancer-derived cell lines are an important sample source for cancer proteomics and can be cla...
Abstract Background The classic central dogma in biol...
Background and AimsProteomics holds promise for individualizing cancer treatment. We analyzed to wha...
Using 11 proteomics datasets, mostly available through the PRIDE database, we assembled a reference ...
While the number and identity of proteins expressed in a single human cell type is currently unknown...
The proteome provides unique insights into biology and disease beyond the genome and transcriptome. ...
Abstract Background Transcriptome analysis of breast cancer discovered distinct disease subtypes of ...
SummaryMolecular profiling of cancer at the transcript level has become routine. Large-scale analysi...
Protein levels and function are poorly predicted by genomic and transcriptomic analysis of patient t...
Proteogenomic studies of cancer samples have shown that copy-number variation can be attenuated at t...
Abstract We performed quantitative proteomics on 60 human-derived breast cancer cell line models to ...
Protein levels and function are poorly predicted by genomic and transcriptomic analysis of patient t...
Introduction: Discovery proteomics for cancer research generates complex datasets of diagnostic, pro...
Breast cancer is a complex phenotype (or better yet, several complex phenotypes) characterized by th...
The central dogma of molecular biology describes the translation of genetic information from mRNA to...
Breast-cancer-derived cell lines are an important sample source for cancer proteomics and can be cla...
Abstract Background The classic central dogma in biol...
Background and AimsProteomics holds promise for individualizing cancer treatment. We analyzed to wha...