2005 PSORTdbAProtLocDBforBacteria

• (Rey et al., 2005) ⇒ Sébastien Rey, Michael Acab, Jennifer L. Gardy, Matthew R. Laird, Katalin deFays, Christophe Lambert, Fiona S. L. Brinkman. (2005). “PSORTdb: a protein subcellular localization database for bacteria. In: Nucleic Acids Resesearch, 33:D164-168.

Subject Headings: PPLRE Project, PSORTdb

Notes

Cited By

~70 http://scholar.google.com/scholar?cites=16046392483617366213

Quotes

Abstract

• Information about bacterial subcellular localization (SCL) is important for protein function prediction and identification of suitable drug/vaccine/diagnostic targets. PSORTdb (http://db.psort.org/) is a web-accessible database of SCL for bacteria that contains both information determined through laboratory experimentation and computational predictions. The dataset of experimentally verified information (~2000 proteins) was manually curated by us and represents the largest dataset of its kind. Earlier versions have been used for training SCL predictors, and its incorporation now into this new PSORTdb resource, with its associated additional annotation information and dataset version control, should aid researchers in future development of improved SCL predictors. The second component of this database contains computational analyses of proteins deduced from the most recent NCBI dataset of completely sequenced genomes. Analyses are currently calculated using PSORTb, the most precise automated SCL predictor for bacterial proteins. Both datasets can be accessed through the web using a very flexible text search engine, a data browser, or using BLAST, and the entire database or search results may be downloaded in various formats. Features such as GO ontologies and multiple accession numbers are incorporated to facilitate integration with other bioinformatics resources. PSORTdb is freely available under GNU General Public License.

References

• Allan E. and Wren,B.W. (2003). Genes to genetic immunization: identification of bacterial vaccine candidates. Methods, 31:, 193–198. [PubMed].
• Mora M., Veggi,D., Santini,L., Pizza,M. and Rappuoli,R. (2003). Reverse vaccinology. Drug Discov. Today, 8:, 459–464. [PubMed].
• Paine K. and Flower,D.R. (2002). Bacterial bioinformatics: pathogenesis and the genome. J. Mol. Microbiol. Biotechnol., 4:, 357–365. [PubMed].
• Gardy J.L., Spencer,C., Wang,K., Ester,M., Tusnady,G.E., Simon,I., Hua,S., deFays,K., Lambert,C., Nakai,K. et al. (2003). PSORT-B: improving protein subcellular localization prediction for Gram-negative bacteria. Nucleic Acids Res., 31:, 3613–3617. [PubMed].
• Boeckmann B., Bairoch,A., Apweiler,R., Blatter,M.C., Estreicher,A., Gasteiger,E., Martin,M.J., Michoud,K., O'Donovan,C., Phan,I. et al. (2003). The SWISS-PROT protein knowledgebase and its supplement TrEMBL in (2003). Nucleic Acids Res., 31:, 365–370. [PubMed].
• Apweiler R., Bairoch,A., Wu,C.H., Barker,W.C., Boeckmann,B., Ferro,S., Gasteiger,E., Huang,H.Z., Lopez,R., Magrane,M. et al. (2004). UniProt: the Universal Protein knowledgebase. Nucleic Acids Res., 32:, D115–D119. [PubMed].
• Hua S.J. and Sun,Z.R. (2001) Support vector machine approach for protein subcellular localization prediction. Bioinformatics, 17:, 721–728. [PubMed].
• Guo T., Hua,S.J., Ji,X.L. and Sun,Z.R. (2004). DBSubLoc: database of protein subcellular localization. Nucleic Acids Res., 32:, D122–D124. [PubMed].
• Lu Z., Szafron,D., Greiner,R., Lu,P., Wishart,D.S., Poulin,B., Anvik,J., Macdonell,C. and Eisner,R. (2004). Predicting subcellular localization of proteins using machine-learned classifiers. Bioinformatics, 20:, 547–556. [PubMed].
• Nair R. and Rost,B. (2002). Inferring sub-cellular localization through automated lexical analysis. Bioinformatics, 18 (Suppl. 1):, S78–S86. [PubMed].
• Ashburner M., Ball,C.A., Blake,J.A., Botstein,D., Butler,H., Cherry,J.M., Davis,A.P., Dolinski,K., Dwight,S.S., Eppig,J.T. et al. (2000) Gene Ontology: tool for the unification of biology. Nature Genet., 25:, 25–29. [PubMed].
• Fischetti V.A., Novick,R.P., Ferretti,J.J., Portnoy,D.A. and Rood,J.I. (2000) Gram-Positive Pathogens. ASM Press, Washington, DC.
• Sonenshein A.L., Hoch,J.A. and Losick,R.M. (2001) Bacillus subtilis and Its Closest Relatives: From Genes to Cells. ASM Press, Washington, DC.
• Neidhardt F.C., Curtiss III,R., Ingraham,J.L., Lin,E.C.C., Low,K.B., Magasanik,B., Reznikoff,W.S., Riley,M., Schaechter,M. and Umbarger,H.E. (eds) (2004) Escherichia coli and Salmonella: Cellular and Molecular Biology. ASM Press, Washington, DC.
• Yu C.S., Lin,C.J. and Hwang,J.K. (2004). Predicting subcellular localization of proteins for Gram-negative bacteria by support vector machines based on n-peptide compositions. Protein Sci., 13:, 1402–1406. [PubMed].
• Benson D.A., Karsch-Mizrachi,I., Lipman,D.J., Ostell,J., Rapp,B.A. and Wheeler,D.L. (2000) GenBank. Nucleic Acids Res., 28:, 15–18. [PubMed].
• Wheeler D.L., Chappey,C., Lash,A.E., Leipe,D.D., Madden,T.L., Schuler,G.D., Tatusova,T.A. and Rapp,B.A. (2000) Database resources of the National Center for Biotechnology Information. Nucleic Acids Res., 28:, 10–14. [PubMed].
• Altschul S.F., Madden,T.L., Schaffer,A.A., Zhang,J., Zhang,Z., Miller,W. and Lipman,D.J. (1997) Gapped BLAST and PSI-BLAST: a new generation of protein database search programs. Nucleic Acids Res., 25:, 3389–3402. [PubMed].
• Nair R. and Rost,B. (2002). Sequence conserved for subcellular localization. Protein Sci., 11:, 2836–2847. [PubMed].
• Bagos P., Liakopoulos,T., Spyropoulos,I. and Hamodrakas,S. (2004). A Hidden Markov Model method, capable of predicting and discriminating beta-barrel outer membrane proteins. BMC Bioinformatics, 5:, 29.

,