%0 Generic
%9 Master's Thesis
%A Kabagambe, Benjamin
%D 2008
%F pittir:9507
%K Apomyoglobin; Spectroscopy; UV Resonance Raman
%T SPECTROSCOPIC INVESTIGATION OF PROTEINS
%U http://d-scholarship-dev.library.pitt.edu/9507/
%X Apomyoglobin is obtained from pure myoglobin by extracting out the heme group. UsingUV-visible spectrometry we are able to monitor complete removal of heme group. Thisextraction initiates the disruption of myoglobin's tertiary conformation. Apomyoglobin consistsof 8 α-helices labeled A through H. These helices unfold when the protein is subjected to pHdecrease. It is more compact at about pH 7 and unfolds as we change to more acidicenvironment. At about pH 2 we have A, G, H core with the rest of the helices unfolded. At pHvalues slightly lower than 2, A, G and H helices are also unfolded. When the protein is notdenatured, the refolding process is done by changing the pH towards neutral. At pH 2, G and Hhelices refold and at pH 4 A-helix refolds as well. We have been able to label A-helix withprotons and the rest of the protein with deuterium using H2O and D2O respectively. We havethen used temperature change to initiate the unfolding of protonated A-helix. When dissolved inD2O, the protonated A-helix at elevated temperatures, exchanges its N-H protons to N-Ddeuterons. Temperatures were elevated from 0 °C to 80 °C and changes in Am III peak intensitieswere observed using UV resonance Raman spectroscopy. These peak changes were quantifiedand used to calculate the number of N-H bonds present between 0 °C and 80 °C. The number ofN-H bonds decreased with increase in temperature indicating the unfolding of A-helix.