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Protein structure and function by hydrogen exchange mass spectrometry analysis

$322,648R01FY2014GMNIH

University Of Pennsylvania, Philadelphia PA

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Abstract

DESCRIPTION (provided by applicant): The major challenge for the protein chemist is to explain how proteins implement their limited repertoire of structural and biophysical properties to produce their myriad functions. Unlike any other laboratory method, hydrogen exchange (HX) behavior encodes detailed quantitative information, at amino acid resolution, on the biophysical factors that produce protein function -- structure, structure change, interactions, dynamics, and energetics. Previous versions of this NIH grant have been instrumental in developing the HX field by using a variety of NMR methods, but routine NMR analysis is limited to small highly soluble proteins in substantial quantity and high concentration. A developing hydrogen exchange - mass spectrometry technology (HX MS) promises to extend this proven capability to the larger and more complex protein systems that make biology work while requiring only picomoles of protein at sub-micromolar concentrations. This application proposes to perfect the HX MS technology and apply it in studies of important protein systems. They are: 1) apolipoproteins E3 and E4, when lipid- free and lipid-bound, important for cardiovascular and Alzheimer's diseases; 2) the definition of autoimmune antibody epitopes in acquired TTP disease, relevant to antibody therapeutics and to protein interactions more generally; 3) the Hsp104 protein disaggregase, relevant to the control of protein aggregation and amyloid processing. The full development of HX MS and its demonstration with difficult but centrally important protein systems will provide a uniquely powerful methodology that is widely applicable to the study of protein structure - function problems.

View original record on NIH RePORTER →