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Protein refolding and transient aggregate formation studied by very fast pressure

$243,959R01FY2011GMNIH

University Of Illinois At Urbana-Champaign, Urbana IL

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Abstract

DESCRIPTION (provided by applicant): Protein folding and aggregation are processes that constantly interact, sometimes leading to disease. Both protein folding and protein aggregation are sensitive to pressure, a thermodynamically simpler variable than temperature or solvent additives. We develop a new pressure jump simultaneously capable of >2500 atm pressure drops in <700 nanoseconds on <1 nM of protein sample. The experiment will be used to study the interplay of folding and aggregation of the Syrian hamster prion ShPrP, which is known to have very fast pressure-jump kinetic phases that could not be resolved by conventional instruments. Pressure- and concentration-dependent studies will reveal how formation of early folding intermediates and subsequent formation of the native state compete with transient aggregation that could eventually lead to formation of protofibrils. As a second pressure jump project, we also study in detail the folding of lambda repressor mutants designed to alter the packing and secondary structure propensity of the protein. For folding studies, the pressure drop provides an alternative refolding method that perturbs secondary structure less than temperature jump experiments. We picked lambda repressor because rich T-jump data already exist, and T-jump and P-jump experiments will be interesting to compare. All experiments will be analyzed with a folding or folding/aggregation master equation kinetics model that is useful for comparison with Markov dynamics derived from molecular dynamics simulation. We collaborate with the Schulten and Pande group who will carry out relevant simulations. The goal is to build a good low-resolution model of the folding or folding/aggregation energy landscape of these proteins. PUBLIC HEALTH RELEVANCE: Many diseases are caused by the competition between folding and aggregation of proteins. Very fast and large pressure jumps are a new way of studying the interplay between folding and the earliest aggregation step of a model of the Creutzfeldt-Jakob disease protein.

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