Ion–ion interactions in the denatured state contribute to the stabilization of CutA1 proteins
SCIENTIFIC REPORTS(2018)
摘要
In order to elucidate features of the denatured state ensembles that exist in equilibrium with the native state under physiological conditions, we performed 1.4-μs molecular dynamics (MD) simulations at 400 K and 450 K using the monomer subunits of three CutA1 mutants from Escherichia coli : an SH-free mutant (Ec0SH) with denaturation temperature ( T d ) = 85.6 °C, a hydrophobic mutant (Ec0VV) with T d = 113.3 °C, and an ionic mutant (Ec0VV_6) with T d = 136.8 °C. The occupancy of salt bridges by the six substituted charged residues in Ec0VV_6 was 140.1% at 300 K and 89.5% at 450 K, indicating that even in the denatured state, salt bridge occupancy was high, approximately 60% of that at 300 K. From these results, we can infer that proteins from hyperthermophiles with a high ratio of charged residues are stabilized by a decrease in conformational entropy due to ion–ion interactions in the denatured state. The mechanism must be comparable to the stabilization conferred by disulfide bonds within a protein. This suggests that introduction of charged residues, to promote formation of salt bridges in the denatured state, would be a simple way to rationally design stability-enhanced mutants.
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关键词
Protein folding,Thermodynamics,Science,Humanities and Social Sciences,multidisciplinary
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