Does hydrated glycine act as solidification nucleus at multi-kilobar conditions?

Abstract

The investigation of aqueous solutions containing biomolecules as a function of thermodynamic parameters, such as the pressure, is crucial for understanding biological processes. Here we report the first low frequency spectra of 1.5 M aqueous glycine from ambient pressure up to 8 kbar, i.e. in the pressure range which is crucial for understanding biological processes under extreme conditions.We observe a linear pressure dependent blue shift of the specific N-C-C-O open/close mode at ∼320 cm-1 indicating an increasing compression of the solvated glycine. In contrast, the characteristic peak of the hydrogen bond hydration water network centered, at ambient conditions, at ∼184 cm-1 non-linearly blue shifts with increasing pressure, as well, but with a slower rate than the intramolecular peak.This indicates that the macroscopic liquid-solid phase transition observed above 8 kbar pressure is driven by hydrated glycine as solidification nucleus.