Quantifying the Effects of Hydrogen Bonding on Nitrile Frequencies in GFP: Beyond Solvent Exposure

Vibrational spectroscopy is a powerful tool for characterizing the complex noncovalent interactions that arise in biological systems. The nitrile stretching frequency has proven to be a particularly convenient biological probe, but the interpretation of nitrile spectroscopy is complicated by its sensitivity to local hydrogen bonding interactions. This often inhibits the straightforward interpretation of nitrile spectra by requiring knowledge of the molecular-level details of the local environment surrounding the probe. While the effect of hydrogen bonds on nitrile frequencies has been well-documented for small molecules in solution, there have been relatively few studies of these effects in a complex protein system. To address this, we introduced a nitrile probe at nine locations throughout green fluorescent protein (GFP) and compared the mean vibrational frequency of each probe to the specific hydrogen bonding geometries observed in molecular dynamics (MD) simulations. We show that a continuum of hydroge...