Research Reports from Life Science Freshmen Research Scholars

L-Histidine is an important amino acid because it is a key part of the active site of many proteins. The aim of the study was to develop a higher understanding of the structure of protein vibrations.. By measuring the absorption spectra of L-Histidine at low pH and high pH, we can identify infrared signals revealing if the histidine is protonated. The spectra of the L-Histidine side chain, ethylimidazole, the polymer of 8 His residues(8-mer), and 15N-His, were measured to identify key infrared signals from the His side chain. A catalog of absorption signals that correspond to a specific protonation site will provide a tool to analyze FTIR spectra of many proteins. A set of vibrational modes were found to be sensitive to protonation and 15N-labeling, providing tools to identify and analyze His side chains in proteins. The identification of these vibrational bands will lead to a better understanding of the structure and function of proteins.

Barth, A., 2000. The infrared absorption of amino acid side chains. Progress in Biophysics and Molecular Biology 74: 141-173.

Gutteridge, A., and J. M. Thornton. 2005. Understanding nature’s catalytic toolkit. Trends in Biochemical Sciences 30: 622-629.

Liang L., H. Ma, and Y. Wei. 2011. Size-dependent elastic modulus and vibration frequency of nanocrystals. Journal of Nanomaterials 2011: 24.

Miranker, A., C.V. Robinson, S.E. Radford, R.T. Aplin, and C.M. Dobson. 1993. Detection of transient protein folding populations by mass spectrometry. Science 262: 896-900.

Xie, A., L. Kelemen, J. Hendriks, B.J. White, K.J. Hellingwerf, and W.D. Hoff. 2001. Formation of a new buried charge drives a large-amplitude protein quake in photoreceptor activation. Biochemistry 40: 1510-1517.