Add to ORKGProteogenomics has emerged as a valuable approach in cancer research, which integrates genomic and transcriptomic data with mass spectrometry–based proteomics data to directly identify expressed, variant protein sequences that may have functional roles in cancer. This approach is computationally intensive, requiring integration of disparate software tools into sophisticated workflows, challenging its adoption by nonexpert, bench scientists. To address this need, we have developed an extensible, Galaxy-based resource aimed at providing more researchers access to, and training in, proteogenomic informatics. Our resource brings together software from several leading research groups to address two foundational aspects of proteogenomics: (i) gen...
Secretome proteomics for the discovery of cancer biomarkers holds great potential to improve early c...
Proteins are understood to be the main workhorses in the cell, participating in a wide variety of ac...
High-accuracy and high-throughput proteomic methods have completely changed the way we can identify ...
Proteogenomics has emerged as a valuable approach in cancer research, which integrates genomic and t...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
Introduction: Discovery proteomics for cancer research generates complex datasets of diagnostic, pro...
Proteogenomics combines large-scale genomic and transcriptomic data with mass-spectrometry-based pro...
Proteomic data is increasingly important to understanding the origin and progression of cancer; howe...
Proteogenomics is a multi-omics research field that has the aim to efficiently integrate genomics, t...
Cancer is driven by the acquisition of somatic DNA lesions. Distinguishing the early driver mutation...
The Chromosome-centric Human Proteome Project (C-HPP) seeks to comprehensively characterize all prot...
Proteogenomics is a multi-omics research field that has the aim to efficiently integrate genomics, t...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
An important aim of cancer proteomics is to understand how the cancer proteome, with all its variati...
Secretome proteomics for the discovery of cancer biomarkers holds great potential to improve early c...
Proteins are understood to be the main workhorses in the cell, participating in a wide variety of ac...
High-accuracy and high-throughput proteomic methods have completely changed the way we can identify ...
Proteogenomics has emerged as a valuable approach in cancer research, which integrates genomic and t...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
Introduction: Discovery proteomics for cancer research generates complex datasets of diagnostic, pro...
Proteogenomics combines large-scale genomic and transcriptomic data with mass-spectrometry-based pro...
Proteomic data is increasingly important to understanding the origin and progression of cancer; howe...
Proteogenomics is a multi-omics research field that has the aim to efficiently integrate genomics, t...
Cancer is driven by the acquisition of somatic DNA lesions. Distinguishing the early driver mutation...
The Chromosome-centric Human Proteome Project (C-HPP) seeks to comprehensively characterize all prot...
Proteogenomics is a multi-omics research field that has the aim to efficiently integrate genomics, t...
One of the best-established area within multi-omics is proteogenomics, whereby the underpinning tech...
An important aim of cancer proteomics is to understand how the cancer proteome, with all its variati...
Secretome proteomics for the discovery of cancer biomarkers holds great potential to improve early c...
Proteins are understood to be the main workhorses in the cell, participating in a wide variety of ac...
High-accuracy and high-throughput proteomic methods have completely changed the way we can identify ...