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Journal Article Predicting the Interactome of Xanthomonas Oryzae Pathovar Oryzae for Target Selection and DB Service
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Authors
Jeong-Gu Kim, Dae Ui Park, Byoung-Chul Kim, Seong-Woong Cho, Yeong Tae Kim, Young-Jin Park, Hee Jung Cho, Hyun Seok Park, Ki-Bong Kim, Kyong-Oh Yoon, Soo-Jun Park, Byoung-Moo Lee, Jong Bhak
Issue Date
2008-01
Citation
BMC Bioinformatics, v.9, pp.1-6
ISSN
1471-2105
Publisher
BioMed Central
Language
English
Type
Journal Article
DOI
https://dx.doi.org/10.1186/1471-2105-9-41
Project Code
08MC2500, Ubiquitous Health Monitoring Module and System Development, Park Seon Hee
Abstract
Background: Protein-protein interactions (PPIs) play key roles in various cellular functions. In addition, some critical inter-species interactions such as host-pathogen interactions and pathogenicity occur through PPIs. Phytopathogenic bacteria infect hosts through attachment to host tissue, enzyme secretion, exopolysaccharides production, toxins release, iron acquisition, and effector proteins secretion. Many such mechanisms involve some kind of protein-protein interaction in hosts. Our first aim was to predict the whole protein interaction pairs (interactome) of Xanthomonas oryzae pathovar oryzae (Xoo) that is an important pathogenic bacterium that causes bacterial blight (BB) in rice. We developed a detection protocol to find possibly interacting proteins in its host using whole genome PPI prediction algorithms. The second aim was to build a DB server and a bioinformatic procedure for finding target proteins in Xoo for developing pesticides that block host-pathogen protein interactions within critical biochemical pathways. Description: A PPI network in Xoo proteome was predicted by bioinformatics algorithms: PSIMAP, PEIMAP, and iPfam. We present the resultant species specific interaction network and host-pathogen interaction, XooNET. It is a comprehensive predicted initial PPI data for Xoo. XooNET can be used by experimentalists to pick up protein targets for blocking pathological interactions. XooNET uses most of the major types of PPI algorithms. They are: 1) Protein Structural Interactome MAP (PSIMAP), a method using structural domain of SCOP, 2) Protein Experimental Interactome MAP (PEIMAP), a common method using public resources of experimental protein interaction information such as HPRD, BIND, DIP, MINT, IntAct, and BioGrid, and 3) Domain-domain interactions, a method using Pfam domains such as iPfam. Additionally, XooNET provides information on network properties of the Xoo interactome. Conclusion: XooNET is an open and free public database server for protein interaction information for Xoo. It contains 4,538 proteins and 26,932 possible interactions consisting of 18,503 (PSIMAP), 3,118 (PEIMAP), and 8,938 (iPfam) pairs. In addition, XooNET provides 3,407 possible interaction pairs between two sets of proteins; 141 Xoo proteins that are predicted as membrane proteins and rice proteomes. The resultant interacting partners of a query protein can be easily retrieved by users as well as the interaction networks in graphical web interfaces. XooNET is freely available from http://bioportal.kobic.kr/ XooNET/. © 2008 Kim et al; licensee BioMed Central Ltd.
KSP Keywords
Bioinformatics algorithms, Cellular functions, Database server, Enzyme secretion, Freely available, Host-pathogen interaction, Inter-species, Interaction networks, Iron acquisition, Membrane proteins, Network Properties