doi: 10.1073/pnas.052713599.
How the folding rate constant of simple, single-domain proteins depends on the number of native contacts
Affiliations
- PMID: 11904417
- PMCID: PMC122558
- DOI: 10.1073/pnas.052713599
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How the folding rate constant of simple, single-domain proteins depends on the number of native contacts
Proc Natl Acad Sci U S A.
.
Abstract
Experiments have shown that the folding rate constants of two dozen structurally unrelated, small, single-domain proteins can be expressed in terms of one quantity (the contact order) that depends exclusively on the topology of the folded state. Such dependence is unique in chemical kinetics. Here we investigate its physical origin and derive the approximate formula ln(k) = ln(N) + a + bN, were N is the number of contacts in the folded state, and a and b are constants whose physical meaning is understood. This formula fits well the experimentally determined folding rate constants of the 24 proteins, with single values for a and b.
Figures
A schematic representation of transitions from a 2-conformer to two different 3-conformers.
The logarithm of the rate constant predicted by Eq. 21 vs. the logarithm of the measured rate constant. If the fit were perfect, all points would fall on the line. The rate constants are in s−1.
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