Abstract
Maltose binding protein (MBP) exhibits a slow phase of folding at pH 7.4, 298 K. The kinetics of this phase has been characterized as a function of denaturant concentration and temperature. Denaturant double-jump experiments and the activation energy for folding indicate that the slow phase involves processes other than proline isomerization. Although the first five N-terminal residues are disordered in the MBP crystal structure, mutations in this region slow down folding and destabilize the native structure. This is the first report showing that disordered N-terminal residues can affect folding kinetics and stability.
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