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Structure and function of the ATP synthase

$318,095R01FY2014GMNIH

Rosalind Franklin Univ Of Medicine & Sci, North Chicago IL

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Abstract

The mitochondrial F1Fo ATP synthase is responsible for the synthesis 90% of the ATP under aerobic conditions. The ATP synthase is a multimeric protein complex with an overall molecular weight greater than 550,000 Da. A portion of the ATP synthase is embedded in the mitochondrial membrane and acts as a proton turbine and a portion is in the matrix space and acts as a rotary engine that phosphorylates ADP. In the prior award period, we have solved the high resolution structures of 4 mutant forms of the F1 ATPase and determined the structural basis of mutations in F1 that uncouple proton translocation from ATP synthesis. The coupling of the ATP synthase is key to energy metabolism and yet the mechanism is poorly understood. We have also determined the high-resolution structures of the yeast c10-ring at pH 5.5, 6.1, 8.3, modified with DCCD, and bound with oligomycin. The current project builds upon our advances and expands our goals. One aim of this project is to determine the high-resolution crystal structure of the ATP synthase complex from yeast S. cerevisiae. This aim will give critical structural details into the understanding of the mechanism of proton translocation coupled to ATP synthesis. A number of genetic modifications will be used to facilitate crystallization of the entire complex. The high-resolution structure of the ATP synthase will provide the critical features to understand and treat diseases such as cancer and diabetes.

View original record on NIH RePORTER →