Domain assignment for protein structures using a consensus approach: Characterization and analysis

A consensus approach for the assignment of structural domains in proteins is presented. The approach combines a number of previously published algorithms, and takes advantage of the elevated accuracy obtained when assignments from the individual algorithms are in agreement. The consensus approach is...

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Vydáno v:	Protein science Ročník 7; číslo 2; s. 233 - 242
Hlavní autoři:	Jones, Susan, Stewart, Michael, Michie, Alex, Swindells, Mark B., Orengo, Chirstine, Thornton, Janet M.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Bristol Cold Spring Harbor Laboratory Press 01.02.1998
Témata:	Algorithms consensus approach Databases, Factual protein structure Protein Structure, Secondary structural domain assignment structural domain database
ISSN:	0961-8368, 1469-896X
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Abstract	A consensus approach for the assignment of structural domains in proteins is presented. The approach combines a number of previously published algorithms, and takes advantage of the elevated accuracy obtained when assignments from the individual algorithms are in agreement. The consensus approach is tested on a data set of 55 protein chains, for which domain assignments from four automated methods were known, and for which crystallographers assignments had been reported in the literature. Accuracy was found to increase in this test from 72% using individual algorithms to 100% when all four methods were in agreement. However a consensus prediction using all four methods was only possible for 52% of the dataset. The consensus approach (using three publicly available domain assignment algorithms (PUU, DETECTIVE, DOMAK)) was then used to make domain assignments for a data set of 787 protein chains from the Protein Data Bank. Analysis of the assignments showed 55.7% of assignments could be made automatically and of these, 13.5% were multi‐domain proteins. Of the remaining 44.3% that could not be assigned by the consensus procedure 90.4% had their domain boundaries assigned correctly by at least one of the algorithms. Once identified, these domains were analyzed for trends in their size and secondary structure class. In addition, the discontinuity of each domain along the protein chain was considered.
AbstractList	A consensus approach for the assignment of structural domains in proteins is presented. The approach combines a number of previously published algorithms, and takes advantage of the elevated accuracy obtained when assignments from the individual algorithms are in agreement. The consensus approach is tested on a data set of 55 protein chains, for which domain assignments from four automated methods were known, and for which crystallographers assignments had been reported in the literature. Accuracy was found to increase in this test from 72% using individual algorithms to 100% when all four methods were in agreement. However a consensus prediction using all four methods was only possible for 52% of the dataset. The consensus approach [using three publicly available domain assignment algorithms (PUU, DETECTIVE, DOMAK)] was then used to make domain assignments for a data set of 787 protein chains from the Protein Data Bank. Analysis of the assignments showed 55.7% of assignments could be made automatically, and of these, 13.5% were multi-domain proteins. Of the remaining 44.3% that could not be assigned by the consensus procedure 90.4% had their domain boundaries assigned correctly by at least one of the algorithms. Once identified, these domains were analyzed for trends in their size and secondary structure class. In addition, the discontinuity of each domain along the protein chain was considered. A consensus approach for the assignment of structural domains in proteins is presented. The approach combines a number of previously published algorithms, and takes advantage of the elevated accuracy obtained when assignments from the individual algorithms are in agreement. The consensus approach is tested on a data set of 55 protein chains, for which domain assignments from four automated methods were known, and for which crystallographers assignments had been reported in the literature. Accuracy was found to increase in this test from 72% using individual algorithms to 100% when all four methods were in agreement. However a consensus prediction using all four methods was only possible for 52% of the dataset. The consensus approach [using three publicly available domain assignment algorithms (PUU, DETECTIVE, DOMAK)] was then used to make domain assignments for a data set of 787 protein chains from the Protein Data Bank. Analysis of the assignments showed 55.7% of assignments could be made automatically, and of these, 13.5% were multi-domain proteins. Of the remaining 44.3% that could not be assigned by the consensus procedure 90.4% had their domain boundaries assigned correctly by at least one of the algorithms. Once identified, these domains were analyzed for trends in their size and secondary structure class. In addition, the discontinuity of each domain along the protein chain was considered.A consensus approach for the assignment of structural domains in proteins is presented. The approach combines a number of previously published algorithms, and takes advantage of the elevated accuracy obtained when assignments from the individual algorithms are in agreement. The consensus approach is tested on a data set of 55 protein chains, for which domain assignments from four automated methods were known, and for which crystallographers assignments had been reported in the literature. Accuracy was found to increase in this test from 72% using individual algorithms to 100% when all four methods were in agreement. However a consensus prediction using all four methods was only possible for 52% of the dataset. The consensus approach [using three publicly available domain assignment algorithms (PUU, DETECTIVE, DOMAK)] was then used to make domain assignments for a data set of 787 protein chains from the Protein Data Bank. Analysis of the assignments showed 55.7% of assignments could be made automatically, and of these, 13.5% were multi-domain proteins. Of the remaining 44.3% that could not be assigned by the consensus procedure 90.4% had their domain boundaries assigned correctly by at least one of the algorithms. Once identified, these domains were analyzed for trends in their size and secondary structure class. In addition, the discontinuity of each domain along the protein chain was considered.
Author	Swindells, Mark B. Stewart, Michael Orengo, Chirstine Jones, Susan Thornton, Janet M. Michie, Alex
AuthorAffiliation	Department of Biochemistry and Molecular Biology, University College, London, United Kingdom
AuthorAffiliation_xml	– name: Department of Biochemistry and Molecular Biology, University College, London, United Kingdom
Author_xml	– sequence: 1 givenname: Susan surname: Jones fullname: Jones, Susan email: sue@bsm.biochem.ucl.ac.uk – sequence: 2 givenname: Michael surname: Stewart fullname: Stewart, Michael – sequence: 3 givenname: Alex surname: Michie fullname: Michie, Alex – sequence: 4 givenname: Mark B. surname: Swindells fullname: Swindells, Mark B. – sequence: 5 givenname: Chirstine surname: Orengo fullname: Orengo, Chirstine – sequence: 6 givenname: Janet M. surname: Thornton fullname: Thornton, Janet M.
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/9521098$$D View this record in MEDLINE/PubMed
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Snippet	A consensus approach for the assignment of structural domains in proteins is presented. The approach combines a number of previously published algorithms, and...
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SubjectTerms	Algorithms consensus approach Databases, Factual protein structure Protein Structure, Secondary structural domain assignment structural domain database
Title	Domain assignment for protein structures using a consensus approach: Characterization and analysis
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