Literature DB >> 11323723

Nonprolyl cis peptide bonds in unfolded proteins cause complex folding kinetics.

G Pappenberger1, H Aygün, J W Engels, U Reimer, G Fischer, T Kiefhaber.   

Abstract

Folding of tendamistat, an inhibitor of alpha-amylase, is a fast two-state process accompanied by two minor slow reactions, which were assigned to prolyl isomerization. In a proline-free variant, 5% of the molecules still fold slowly with a rate constant of 2.5 s(-1). This reaction is caused by a slow equilibrium between two populations of unfolded molecules. The time constant for this equilibration process, its sensitivity to LiCl and its temperature dependence identify it as a cis-trans isomerization of nonprolyl peptide bonds. Although nonprolyl peptide bonds have the cis conformation populating only approximately 0.15% in unfolded proteins, their large number generates a significant fraction of slow-folding molecules. This emphasizes that heterogeneous populations in an unfolded protein can induce complex folding kinetics on various time scales.

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Year:  2001        PMID: 11323723     DOI: 10.1038/87624

Source DB:  PubMed          Journal:  Nat Struct Biol        ISSN: 1072-8368


  16 in total

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6.  Effects of disulfide bonds on folding behavior and mechanism of the beta-sheet protein tendamistat.

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7.  Collagen triple-helix formation in all-trans chains proceeds by a nucleation/growth mechanism with a purely entropic barrier.

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9.  Rapid folding and unfolding of Apaf-1 CARD.

Authors:  Sara L Milam; Nathan I Nicely; Brett Feeney; Carla Mattos; A Clay Clark
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10.  Kinetic traps in the folding/unfolding of procaspase-1 CARD domain.

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Journal:  Protein Sci       Date:  2004-08       Impact factor: 6.725
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