MetaFam: A unified classification of protein families. I. Overview and statistics

K. A.T. Silverstein, E. Shoop, J. E. Johnson, E. F. Retzel

Research output: Contribution to journalArticlepeer-review

17 Scopus citations

Abstract

Motivation. Protein sequence classification is becoming an increasingly important means of organizing the voluminous data produced by large-scale genome sequencing projects. At present, there are several independent classification methods. To aid the general classification effort, we have created a unified protein family resource, MetaFam. MetaFam is a protein family classification built upon 10 publicly-accessible protein family databases (Blocks+, DOMO, Pfam, PIR-ALN, PRINTS, PROSITE, ProDom, PROTOMAP, SBASE, and SYSTERS). MetaFam's family 'supersets', as we call them, are created automatically using set-theory to compare families among the databases. Families of one database are matched to those in another when the intersection of their members exceeds all other possible family pairings between the two databases. Pairwise family matches are drawn together transitively to create a new list of protein family supersets. Results. MetaFam family supersets have several useful features: (1) each superset contains more members than the families from which it is composed, because each of the component family databases only works with a subset of our full non-redundant set of proteins; (2) conflicting assignments can be pinpointed quickly, since our analysis identifies individual members that are in conflict with the majority consensus; (3) family descriptions that are absent from automated databases can frequently be assigned; (4) statistics have been computed comparing domain boundaries, family size distributions, and overall quality of MetaFam supersets; (5) the supersets have been loaded into a relational database to allow for complex queries and visualization of the connections among families in a superset and the consensus of individual domain members; and (6) the quality of individual supersets has been assessed using numerous quantitative measures such as family consistency, connectedness, and size. We anticipate this new resource will be particularly useful to genomic database curators.

Original languageEnglish (US)
Pages (from-to)249-261
Number of pages13
JournalBioinformatics
Volume17
Issue number3
DOIs
StatePublished - 2001

Bibliographical note

Funding Information:
The authors thank the reviewers of this manuscript for helpful suggestions, Ihab Awad for several stimulating discussions that led to improvements on our data schema, Tim Kunau for setting up the MetaFam web server, Margaret Mayer for some of the ORACLE table creation, and Alan Kilian for help with the figures. This work was supported by an SCA with the USDA-ARS. Additionally, the authors are grateful for funding from the National Science Foundation (NSF) Functional Genomics Program for Soybean #9872565 and Genomics of Wood Formation in Loblolly Pine #9975806; the Department of Energy (DOE) Pine Gene Discovery Project, #DE-FC07 97ID13550; the United Soybean Board and the United States Department of Agriculture (USDA) Public EST Project for Soybean, #58-3625-8-117; and institutional support from the University of Minnesota Academic Health Center. Some hardware used in this work was supplied by an AEG from Sun Microsystems Inc.

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