The identification of genetically encoded variants at the proteome level is an important problem in cancer proteogenomics. The generation of customized protein databases from DNA or RNA sequencing data is a crucial stage of the identification workflow. Genomic data filtering applied at this stage may significantly modify variant search results, yet its effect is generally left out of the scope of proteogenomic studies. In this work, we focused on this impact using data of exome sequencing and LC–MS/MS analyses of six replicates for eight melanoma cell lines processed by a proteogenomics workflow. The main objectives were identifying variant peptides and revealing the role of the genomic data filtering in the variant identification. A series...
Proteogenomics has the potential to advance genome annotation through high quality peptide identific...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
Aiming toward an improved understanding of the regulation of proteins in cancer, recent studies from...
The identification of genetically encoded variants at the proteome level is an important problem in ...
Cancer genome deviates significantly from the reference human genome, and thus a search against stan...
Abstract Background Onco-proteogenomics aims to under...
BackgroundOnco-proteogenomics aims to understand how changes in a cancer's genome influences its pro...
This thesis describes the efforts of integrating nucleotide sequencing results with mass spectrometr...
Cancer is driven by the acquisition of somatic DNA lesions. Distinguishing the early driver mutation...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
Improvements in mass spectrometry (MS)-based peptide sequencing provide a new opportunity to determi...
An important aim of cancer proteomics is to understand how the cancer proteome, with all its variati...
The standard shotgun proteomics data analysis strategy relies on searching MS/MS spectra against a c...
In proteogenomic studies, many genome-annotated events, for example, single amino acid variation (SA...
Discovery of variant peptides such as a single amino acid variant (SAAV) in shotgun proteomics data ...
Proteogenomics has the potential to advance genome annotation through high quality peptide identific...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
Aiming toward an improved understanding of the regulation of proteins in cancer, recent studies from...
The identification of genetically encoded variants at the proteome level is an important problem in ...
Cancer genome deviates significantly from the reference human genome, and thus a search against stan...
Abstract Background Onco-proteogenomics aims to under...
BackgroundOnco-proteogenomics aims to understand how changes in a cancer's genome influences its pro...
This thesis describes the efforts of integrating nucleotide sequencing results with mass spectrometr...
Cancer is driven by the acquisition of somatic DNA lesions. Distinguishing the early driver mutation...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
Improvements in mass spectrometry (MS)-based peptide sequencing provide a new opportunity to determi...
An important aim of cancer proteomics is to understand how the cancer proteome, with all its variati...
The standard shotgun proteomics data analysis strategy relies on searching MS/MS spectra against a c...
In proteogenomic studies, many genome-annotated events, for example, single amino acid variation (SA...
Discovery of variant peptides such as a single amino acid variant (SAAV) in shotgun proteomics data ...
Proteogenomics has the potential to advance genome annotation through high quality peptide identific...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
Aiming toward an improved understanding of the regulation of proteins in cancer, recent studies from...