NMR RELAXATION METHODS TO DETECT PROTEIN DYNAMICS: EVALUATION OF ACCURACY, IMPROVEMENT OF THE METHODOLOGY, AND ITS APPLICATION

Myint, Wazo (2013) NMR RELAXATION METHODS TO DETECT PROTEIN DYNAMICS: EVALUATION OF ACCURACY, IMPROVEMENT OF THE METHODOLOGY, AND ITS APPLICATION. Doctoral Dissertation, University of Pittsburgh. (Unpublished)

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Abstract

Proteins are dynamic molecules whose ability to undergo conformational changes and fluctuations can impact their biological function, such as enzyme catalysis and substrate recognition. Mutations or perturbations that do not significantly change protein structure can often have a significant effect on the function by disrupting important internal motions and conformational states. Due to the importance of protein dynamics on function, dynamics have been extensively studied by many different biophysical methods as well as computational means. One of the methods to characterize protein dynamics is by nuclear magnetic resonance (NMR) spectroscopy. NMR spectroscopy is a powerful tool for the characterization of the structure as well as the dynamics of biological molecules. In particular, NMR relaxation experiments have been used to characterize protein motion in a wide range of timescales ranging from sub-nano second (ns) motions up to millisecond (ms) and above. Recent advances in instrumentation, such as the introduction of commercially available cryogenic probes and higher field static magnets (with 1H Larmor frequency of 900 MHz and above), have increased the sensitivity of NMR experiments. However, reevaluation of the methods used in NMR relaxation experiments and the analysis of the data is required to confirm whether the same experimental methods remain valid for the improved instrumentation. In this thesis, the NMR relaxation experiments were evaluated and improvements in the experimental aspects and the analysis of the NMR relaxation data are made for high resolution NMR experiments. In addition, NMR relaxation experiments were used to investigate the dynamics of the Sarcoplasmic Reticulum Ca2+ ATPase and the Human Immunodeficiency Virus Type 1 Protease wild-type (WT) and mutant forms.

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Details

Item Type:	University of Pittsburgh ETD
Status:	Unpublished
Creators/Authors:	Creators Email Pitt Username ORCID Myint, Wazo wzm2@pitt.edu WZM2
ETD Committee:	Title Member Email Address Pitt Username ORCID Thesis Advisor Ishima, Rieko ishima@pitt.edu ISHIMA Committee Chair Rule, Gordon S rule@andrew.cmu.edu Committee Member Day, Billy W bday@pitt.edu BDAY Committee Member Tang, Pei tangp@anes.upmc.edu PTANG Committee Member Zuckerman, Daniel M ddmmzz@pitt.edu DDMMZZ
Date:	24 August 2013
Date Type:	Publication
Defense Date:	23 July 2013
Approval Date:	24 August 2013
Submission Date:	15 August 2013
Access Restriction:	No restriction; Release the ETD for access worldwide immediately.
Number of Pages:	171
Institution:	University of Pittsburgh
Schools and Programs:	School of Medicine > Molecular Biophysics and Structural Biology
Degree:	PhD - Doctor of Philosophy
Thesis Type:	Doctoral Dissertation
Refereed:	Yes
Uncontrolled Keywords:	NMR Protein Dynamics Nuclear Magnetic Resonance Spectroscopy Relaxation
Date Deposited:	24 Aug 2013 15:31
Last Modified:	19 Dec 2016 14:41
URI:	http://d-scholarship.pitt.edu/id/eprint/19656

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