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Structural Studies of GxGD Membrane Protease FlaK

$307,632R01FY2016GMNIH

Yale University, New Haven CT

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Abstract

DESCRIPTION (provided by applicant): The long-term objective of the application is to elucidate the catalytic mechanism of GxGD membrane protease, which differs in structure and mechanism from the soluble aspartyl proteases. Presenilin and type 4 prepilin peptidase (TFPP) are both members of the GxGD protease family: mutations in presenilin can cause familial Alzheimer's disease, whereas TFPPs are involved in bacterial pathogenesis. FlaK is an archaeal homolog of TFPP, and its crystal structure, solved in the preliminary study, is presently the only atomic resolution structure in the family. The crystal structure provides an overview of the membrane protein's fold, and suggests that the protease must undergo conformational changes upon substrate binding to move the uncoupled aspartyl residues together for catalysis. Three specific aims are proposed in the application. In specific aim 1, mutations that allosterically stimulate FlaK's enzymatic activity will be generated and studied by x-ray crystallography to help explain the nature of the conformational change. In specific aim 2, transition state analog inhibitors incorporating hydroxyethylene or (hydroxyethyl)urea isosteres will be synthesized to co- crystallize with FlaK. The substrate binding subsites and the allosteric model will be tested by mutagenesis. In specific aim 3, substrate-protease fusion proteins will be generated to evaluate the role of substrate's TM domain, which is downstream of the cleavage site, in the binding to the protease. Full-length substrate with an intact TM domain is more efficiently cleaved by FlaK than short peptide. Crystallographic and mutagenesis experiments are planned to characterize the fusion proteins.

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