Collection and Motif-based Prediction of Phosphorylation Sites in Human Viruses

Overview

Journal Sci Signal

Specialties Cell Biology
Physiology
Science

Date 2010 Sep 3

PMID 20807955

Citations 13

Authors

Daniel Schwartz

George M Church

Affiliations

Soon will be listed here.

Abstract

Although various databases have been established that are designed to compile an ever-growing list of protein phosphorylation sites in plants and animals, no such repository exists for viruses. Here, we developed the viral posttranslational modification (virPTM) database, which contains a comprehensive list of 329 accurately localized phosphorylation sites in proteins from 52 human viruses published between 1986 and the present. Additionally, to aid in the detection of new viral phosphorylation sites, we used the scan-x tool to make thousands of high-specificity serine, threonine, and tyrosine phosphorylation predictions in 229 viruses that replicate in human cells. By cross-validating our prediction results with the literature-based entries in the virPTM database, we highlight the effectiveness of the scan-x tool with viral data and extrapolate the existence of at least 4000 as yet unidentified phosphorylation sites on hundreds of viral proteins. Together, these results imply a substantial role for human kinases in mediating viral protein functions and suggest, more generally, that viral primary structure may provide important clues to aid in the rational design of therapeutic agents.

Citing Articles

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Kakkanas A, Karamichali E, Koufogeorgou E, Kotsakis S, Georgopoulou U, Foka P Biomolecules. 2022; 12(8).

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Comprehensive identification of protein orthologs in the family Ascoviridae facilitates an understanding of phylogenomics, protein conservation, and phosphorylation.

Shi Y, Lin W, Chu J, Wang G, Zhao P, Huang G Arch Virol. 2022; 167(4):1075-1087.

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The Potential Role of the ZIKV NS5 Nuclear Spherical-Shell Structures in Cell Type-Specific Host Immune Modulation during ZIKV Infection.

Tan M, Chan K, Ng I, Kong S, Gwee C, Watanabe S Cells. 2019; 8(12).

PMID: 31779251 PMC: 6953166. DOI: 10.3390/cells8121519.

PIM kinases facilitate lentiviral evasion from SAMHD1 restriction via Vpx phosphorylation.

Miyakawa K, Matsunaga S, Yokoyama M, Nomaguchi M, Kimura Y, Nishi M Nat Commun. 2019; 10(1):1844.

PMID: 31015445 PMC: 6479052. DOI: 10.1038/s41467-019-09867-7.

Host-Driven Phosphorylation Appears to Regulate the Budding Activity of the Lassa Virus Matrix Protein.

Ziegler C, Eisenhauer P, Manuelyan I, Weir M, Bruce E, Ballif B Pathogens. 2018; 7(4).

PMID: 30544850 PMC: 6313517. DOI: 10.3390/pathogens7040097.