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Protein Dynamics in Enzymatic Catalysis

$1,785,056P01FY2013GMNIH

Albert Einstein College Of Medicine, Bronx NY

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): The goal of this Program Project, entitled Protein Dynamics in Enzymatic Catalysis, is to study atomic motion in enzymes. We propose to study concepts of how the dynamical nature of proteins affects enzymic function and the energy landscape of enzymes from enzyme-substrate to on-enzyme transition state transition state formation. We bring together a skilled research group of diverse backgrounds all aimed at understanding enzyme function. Importantly, we bring to bear unique, advanced, and effective experimental and theoretical approaches sensitive to the evolution of protein structure on multiple time scales, from ps to minutes. There are four projects and two cores. Project 1: 'Energy Landscapes Encoding Function in LDH Investigated Over Broad Time Scales' will (1) probe how conformational motion from picoseconds to milliseconds contributes transition state formation in lactate dehydrogenase and how motions on different timescales are related to each other and (2) probe the contribution of promoting vibrations to enzymic catalysis. Project 2: 'Dynamics and the Transition State of Purine Nucleoside Phosphorylase' studies (1) the motions leading to transition state formation in PNP and (2) the nature of the transition state in PNP by locating and characterizing dynamic promoting vibrations and by generating a vibrationally altered enzyme whose local and collective bond dynamics alter the probability of reaching the transition state. Project 3: 'Mapping the Energy Landscape of Catalysis in DHFR' aims to (1) determine the dynamics of substrate binding and Michaelis complex formation and coupled protein motions in dihydrofolate reductase; (2) determine the dynamics of proton transfer in DHFR; and (3) determine the role of promoting vibrations in the catalytic reaction of DHFR. Project 4: 'Energy Landscapes and Motional Timescales in Enzyme Catalysis' investigates dynamics in enzymes on multiple time scales and provides theoretical support to the other projects by (1) investigating how longer time conformational motion contributes to enzyme function, and in atomic detail, how motions at different timescales are related to each other; (2) determining how protein architecture results in vibrational energy channeling in enzymes and study how mutation effects this architecture; and (3) elucidating the concept of the tight binding of the transition state and show how, in a specific reaction, the transition state is approached and transited. The Equipment Core (Core A) supports the specialized comprehensive suite of instrumentation for the Program. The Administrative Core (Core B) administers the Program Project.

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