Rosetta in CASP4: Progress in ab initio protein structure prediction

Richard Bonneau; Jerry Tsai; Ingo Ruczinski; Dylan Chivian; Carol Rohl; Charlie E.M. Strauss; David Baker

doi:10.1002/prot.1170

Rosetta in CASP4: Progress in ab initio protein structure prediction

Richard Bonneau, Jerry Tsai, Ingo Ruczinski, Dylan Chivian, Carol Rohl, Charlie E.M. Strauss, David Baker

Research output: Contribution to journal › Article › peer-review

218 Scopus citations

Abstract

Rosetta ab initio protein structure predictions in CASP4 were considerably more consistent and more accurate than previous ab initio structure predictions. Large segments were correctly predicted (>50 residues superimposed within an RMSD of 6.5 Å) for 16 of the 21 domains under 300 residues for which models were submitted. Models with the global fold largely correct were produced for several targets with new folds, and for several difficult fold recognition targets, the Rosetta models were more accurate than those produced with traditional fold recognition models. These promising results suggest that Rosetta may soon be able to contribute to the interpretation of genome sequence information.

Original language	English (US)
Pages (from-to)	119-126
Number of pages	8
Journal	Proteins: Structure, Function and Genetics
Volume	45
Issue number	SUPPL. 5
DOIs	https://doi.org/10.1002/prot.1170
State	Published - Dec 1 2001
Externally published	Yes

Keywords

CASP
Clustering
Contact order
Fold complexity
Rosetta
Structure prediction
Topology

ASJC Scopus subject areas

Structural Biology
Biochemistry
Molecular Biology

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10.1002/prot.1170

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abstract = "Rosetta ab initio protein structure predictions in CASP4 were considerably more consistent and more accurate than previous ab initio structure predictions. Large segments were correctly predicted (>50 residues superimposed within an RMSD of 6.5 {\AA}) for 16 of the 21 domains under 300 residues for which models were submitted. Models with the global fold largely correct were produced for several targets with new folds, and for several difficult fold recognition targets, the Rosetta models were more accurate than those produced with traditional fold recognition models. These promising results suggest that Rosetta may soon be able to contribute to the interpretation of genome sequence information.",

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T2 - Progress in ab initio protein structure prediction

AU - Bonneau, Richard

AU - Tsai, Jerry

AU - Ruczinski, Ingo

AU - Chivian, Dylan

AU - Rohl, Carol

AU - Strauss, Charlie E.M.

AU - Baker, David

PY - 2001/12/1

Y1 - 2001/12/1

N2 - Rosetta ab initio protein structure predictions in CASP4 were considerably more consistent and more accurate than previous ab initio structure predictions. Large segments were correctly predicted (>50 residues superimposed within an RMSD of 6.5 Å) for 16 of the 21 domains under 300 residues for which models were submitted. Models with the global fold largely correct were produced for several targets with new folds, and for several difficult fold recognition targets, the Rosetta models were more accurate than those produced with traditional fold recognition models. These promising results suggest that Rosetta may soon be able to contribute to the interpretation of genome sequence information.

AB - Rosetta ab initio protein structure predictions in CASP4 were considerably more consistent and more accurate than previous ab initio structure predictions. Large segments were correctly predicted (>50 residues superimposed within an RMSD of 6.5 Å) for 16 of the 21 domains under 300 residues for which models were submitted. Models with the global fold largely correct were produced for several targets with new folds, and for several difficult fold recognition targets, the Rosetta models were more accurate than those produced with traditional fold recognition models. These promising results suggest that Rosetta may soon be able to contribute to the interpretation of genome sequence information.

KW - CASP

KW - Clustering

KW - Contact order

KW - Fold complexity

KW - Rosetta

KW - Structure prediction

KW - Topology

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Rosetta in CASP4: Progress in ab initio protein structure prediction

Abstract

Keywords

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