A surprising simplicity to protein folding
Top Cited Papers
- 1 May 2000
- journal article
- progress
- Published by Springer Nature in Nature
- Vol. 405 (6782), 39-42
- https://doi.org/10.1038/35011000
Abstract
The polypeptide chains that make up proteins have thousands of atoms and hence millions of possible inter-atomic interactions. It might be supposed that the resulting complexity would make prediction of protein structure and protein-folding mechanisms nearly impossible. But the fundamental physics underlying folding may be much simpler than this complexity would lead us to expect: folding rates and mechanisms appear to be largely determined by the topology of the native (folded) state, and new methods have shown great promise in predicting protein-folding mechanisms and the three-dimensional structures of proteins.Keywords
This publication has 43 references indexed in Scilit:
- Chaperone rings in protein folding and degradationProceedings of the National Academy of Sciences, 1999
- The fundamentals of protein folding: bringing together theory and experimentCurrent Opinion in Structural Biology, 1999
- Is protein folding hierarchic? I. Local structure and peptide foldingTrends in Biochemical Sciences, 1999
- Fishing for folding nuclei in lattice models and proteinsFolding and Design, 1998
- Folding nucleus: specific of multiple? insights from lattice models and experimentsFolding and Design, 1998
- How do small single-domain proteins fold?Folding and Design, 1998
- Pathways for protein folding: is a new view needed?Current Opinion in Structural Biology, 1998
- Protein folding in the landscape perspective: Chevron plots and non-arrhenius kineticsProteins-Structure Function and Bioinformatics, 1998
- Funnels, pathways, and the energy landscape of protein folding: A synthesisProteins-Structure Function and Bioinformatics, 1995
- Principles that Govern the Folding of Protein ChainsScience, 1973