Author: Medvedev, Kirill E.; Kinch, Lisa N.; Grishin, Nick V.
Title: Functional and evolutionary analysis of viral proteins containing a Rossmannâ€like fold Cord-id: 4fota9rl Document date: 2018_6_13
ID: 4fota9rl
Snippet: Viruses are the most abundant life form and infect practically all organisms. Consequently, these obligate parasites are a major cause of human suffering and economic loss. Rossmannâ€like fold is the most populated fold among α/βâ€folds in the Protein Data Bank and proteins containing Rossmannâ€like fold constitute 22% of all known proteins 3D structures. Thus, analysis of viral proteins containing Rossmannâ€like domains could provide an understanding of viral biology and evolution as well
Document: Viruses are the most abundant life form and infect practically all organisms. Consequently, these obligate parasites are a major cause of human suffering and economic loss. Rossmannâ€like fold is the most populated fold among α/βâ€folds in the Protein Data Bank and proteins containing Rossmannâ€like fold constitute 22% of all known proteins 3D structures. Thus, analysis of viral proteins containing Rossmannâ€like domains could provide an understanding of viral biology and evolution as well as could propose possible targets for antiviral therapy. We provide functional and evolutionary analysis of viral proteins containing a Rossmannâ€like fold found in the evolutionary classification of protein domains (ECOD) database developed in our lab. We identified 81 protein families of bacterial, archeal, and eukaryotic viruses in light of their evolutionâ€based ECOD classification and Pfam taxonomy. We defined their functional significance using enzymatic EC number assignments as well as domainâ€level family annotations.
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