Ultrafast Folding of a Computationally Designed Trp-Cage Mutant: Trp2-Cage
- 1 December 2005
- journal article
- research article
- Published by American Chemical Society (ACS) in The Journal of Physical Chemistry B
- Vol. 110 (8) , 3759-3763
- https://doi.org/10.1021/jp055288z
Abstract
Miniproteins provide useful model systems for understanding the principles of protein folding and design. These proteins also serve as useful test cases for theories of protein folding, and their small size and ultrafast folding kinetics put them in a regime of size and time scales that is now becoming accessible to molecular dynamics simulations. Previous estimates have suggested the “speed limit” for folding is on the order of 1 μs. Here a computationally designed mutant of the 20-residue Trp-cage miniprotein, Trp2-cage, is presented. The Trp2-cage has greater stability than the parent and folds on the ultrafast time scale of 1 μs at room temperature, as determined from infrared temperature-jump experiments.Keywords
This publication has 19 references indexed in Scilit:
- Computational methods for protein design and protein sequence variability: biased Monte Carlo and replica exchangeChemical Physics Letters, 2004
- Theory of protein foldingCurrent Opinion in Structural Biology, 2004
- The protein folding ‘speed limit’Current Opinion in Structural Biology, 2004
- Possible locally driven folding pathways of TC5b, a 20‐residue proteinProteins-Structure Function and Bioinformatics, 2003
- Mini-proteins Trp the light fantasticNature Structural & Molecular Biology, 2002
- Designing a 20-residue proteinNature Structural & Molecular Biology, 2002
- Statistical theory for protein combinatorial libraries. packing interactions, backbone flexibility, and the sequence variability of a main-chain structure11Edited by J. ThorntonJournal of Molecular Biology, 2001
- Multiple roles of prolyl residues in structure and foldingJournal of Molecular Biology, 2000
- Contributions of tryptophan side chains to the circular dichroism of globular proteins: exciton couplets and coupled oscillatorsFaraday Discussions, 1994
- Biosynthetic origin of the carbon skeleton and oxygen atoms of nargenicin A1Journal of the American Chemical Society, 1984