Abstract
The amide−water hydrogen exchange rates of the individual backbone amide protons are very sensitive to the local environment of the protons and can be used to probe fluctuations in the local conformations of proteins. Hydrogen exchange between N-methylacetamide (NMA) and water is important in that it serves as a model for the amide−water hydrogen exchange in peptides and proteins. The rate constants for amide−water hydrogen exchange between 16 mol % NMA and water at 66 °C were measured at pressures ranging from 1 bar to 5 kbar at three different pH values using the NMR magnetization transfer technique, and the apparent activation volumes of hydrogen exchange were obtained at each pH. The activation volume of the acid-catalyzed hydrogen exchange reaction was calculated to be +1.7 cm3 mol-1, and the activation volume of the base-catalyzed hydrogen exchange reaction was calculated to be +11.0 cm3 mol-1. The hydrogen exchange rate constants were also measured as a function of concentration and pH at ambient p...
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