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Literature DB >> 21051320

Protein folds and protein folding.

Abstract

The classification of protein folds is necessarily based on the structural elements that distinguish domains. Classification of protein domains consists of two problems: the partition of structures into domains and the classification of domains into sets of similar structures (or folds). Although similar topologies may arise by convergent evolution, the similarity of their respective folding pathways is unknown. The discovery and the characterization of the majority of protein folds will be followed by a similar enumeration of available protein folding pathways. Consequently, understanding the intricacies of structural domains is necessary to understanding their collective folding pathways. We review the current state of the art in the field of protein domain classification and discuss methods for the systematic and comprehensive study of protein folding across protein fold space via atomistic molecular dynamics simulation. Finally, we discuss our large-scale Dynameomics project, which includes simulations of representatives of all autonomous protein folds.

Mesh：

Substances：
Proteins

Year: 2010 PMID： 21051320 PMCID： PMC3003448 DOI： 10.1093/protein/gzq096

Source DB: PubMed Journal: Protein Eng Des Sel ISSN： 1741-0126 Impact factor: 1.650

80 in total

1. Gene3D: structural assignment for whole genes and genomes using the CATH domain structure database.

Authors: Daniel W A Buchan; Adrian J Shepherd; David Lee; Frances M G Pearl; Stuart C G Rison; Janet M Thornton; Christine A Orengo
Journal: Genome Res Date: 2002-03 Impact factor: 9.043

2. Unifying features in protein-folding mechanisms.

Authors: Stefano Gianni; Nicholas R Guydosh; Faaizah Khan; Teresa D Caldas; Ugo Mayor; George W N White; Mari L DeMarco; Valerie Daggett; Alan R Fersht
Journal: Proc Natl Acad Sci U S A Date: 2003-10-31 Impact factor: 11.205

3. Solution structure of a protein denatured state and folding intermediate.

Authors: T L Religa; J S Markson; U Mayor; S M V Freund; A R Fersht
Journal: Nature Date: 2005-10-13 Impact factor: 49.962

4. Dynameomics: mass annotation of protein dynamics and unfolding in water by high-throughput atomistic molecular dynamics simulations.

Authors: David A C Beck; Amanda L Jonsson; R Dustin Schaeffer; Kathryn A Scott; Ryan Day; Rudesh D Toofanny; Darwin O V Alonso; Valerie Daggett
Journal: Protein Eng Des Sel Date: 2008-04-14 Impact factor: 1.650

5. Dynameomics: a consensus view of the protein unfolding/folding transition state ensemble across a diverse set of protein folds.

Authors: Amanda L Jonsson; Kathryn A Scott; Valerie Daggett
Journal: Biophys J Date: 2009-12-02 Impact factor: 4.033

6. The structural alignment between two proteins: is there a unique answer?

Authors: A Godzik
Journal: Protein Sci Date: 1996-07 Impact factor: 6.725

7. Dynameomics: a comprehensive database of protein dynamics.

Authors: Marc W van der Kamp; R Dustin Schaeffer; Amanda L Jonsson; Alexander D Scouras; Andrew M Simms; Rudesh D Toofanny; Noah C Benson; Peter C Anderson; Eric D Merkley; Steven Rysavy; Dennis Bromley; David A C Beck; Valerie Daggett
Journal: Structure Date: 2010-03-14 Impact factor: 5.006

8. Structure of the transition state for the folding/unfolding of the barley chymotrypsin inhibitor 2 and its implications for mechanisms of protein folding.

Authors: D E Otzen; L S Itzhaki; N F elMasry; S E Jackson; A R Fersht
Journal: Proc Natl Acad Sci U S A Date: 1994-10-25 Impact factor: 11.205

9. Structure of the transition state for folding of a protein derived from experiment and simulation.

Authors: V Daggett; A Li; L S Itzhaki; D E Otzen; A R Fersht
Journal: J Mol Biol Date: 1996-03-29 Impact factor: 5.469

10. Molecular dynamics simulation of cytochrome b5: implications for protein-protein recognition.

Authors: E M Storch; V Daggett
Journal: Biochemistry Date: 1995-08-01 Impact factor: 3.162

12 in total

1. Generation of a consensus protein domain dictionary.

Authors: R Dustin Schaeffer; Amanda L Jonsson; Andrew M Simms; Valerie Daggett
Journal: Bioinformatics Date: 2010-11-09 Impact factor: 6.937

2. Role of single-point mutations and deletions on transition temperatures in ideal proteinogenic heteropolymer chains in the gas phase.

Authors: L Olivares-Quiroz
Journal: Eur Biophys J Date: 2016-01-27 Impact factor: 1.733

3. Accelerating physical simulations of proteins by leveraging external knowledge.

Authors: Alberto Perez; Joseph A Morrone; Ken A Dill
Journal: Wiley Interdiscip Rev Comput Mol Sci Date: 2017-04-19

4. Functional Evolution of Proteins.

Authors: Jonathan Catazaro; Adam Caprez; David Swanson; Robert Powers
Journal: Proteins Date: 2019-02-19

5. Independent structural domains in paramyxovirus polymerase protein.

Authors: Melanie Dochow; Stefanie A Krumm; James E Crowe; Martin L Moore; Richard K Plemper
Journal: J Biol Chem Date: 2012-01-03 Impact factor: 5.157

6. New Dynamic Rotamer Libraries: Data-Driven Analysis of Side-Chain Conformational Propensities.

Authors: Clare-Louise Towse; Steven J Rysavy; Ivan M Vulovic; Valerie Daggett
Journal: Structure Date: 2016-01-05 Impact factor: 5.006

7. When a domain is not a domain, and why it is important to properly filter proteins in databases: conflicting definitions and fold classification systems for structural domains make filtering of such databases imperative.

Authors: Clare-Louise Towse; Valerie Daggett
Journal: Bioessays Date: 2012-10-26 Impact factor: 4.345