A novel structure-based encoding for machine-learning applied to the inference of SH3 domain specificity | Zendy

Enrico Ferraro | Zendy; A. Via | Zendy; Gabriele Ausiello | Zendy; Manuela HelmerCitterich | Zendy

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A novel structure-based encoding for machine-learning applied to the inference of SH3 domain specificity

Author(s) -

Enrico Ferraro,

A. Via,

Gabriele Ausiello,

Manuela HelmerCitterich

Publication year - 2006

Publication title -

bioinformatics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.599

H-Index - 390

eISSN - 1367-4811

pISSN - 1367-4803

DOI - 10.1093/bioinformatics/btl403

Subject(s) - computer science , sh3 domain , computational biology , domain (mathematical analysis) , encoding (memory) , false positive paradox , artificial intelligence , protein domain , inference , protein–protein interaction , protein sequencing , machine learning , peptide sequence , biology , genetics , proto oncogene tyrosine protein kinase src , mathematics , mathematical analysis , kinase , gene

Unravelling the rules underlying protein-protein and protein-ligand interactions is a crucial step in understanding cell machinery. Peptide recognition modules (PRMs) are globular protein domains which focus their binding targets on short protein sequences and play a key role in the frame of protein-protein interactions. High-throughput techniques permit the whole proteome scanning of each domain, but they are characterized by a high incidence of false positives. In this context, there is a pressing need for the development of in silico experiments to validate experimental results and of computational tools for the inference of domain-peptide interactions.

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