Accurate high-throughput structure mapping and prediction with transition metal ion FRET.

Xiaozhen Yu, Xiongwu Wu, Guillermo A Bermejo, Bernard R Brooks, Justin W Taraska

Index: Structure 21(1) , 9-19, (2013)

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Abstract

Mapping the landscape of a protein's conformational space is essential to understanding its functions and regulation. The limitations of many structural methods have made this process challenging for most proteins. Here, we report that transition metal ion FRET (tmFRET) can be used in a rapid, highly parallel screen, to determine distances from multiple locations within a protein at extremely low concentrations. The distances generated through this screen for the protein maltose binding protein (MBP) match distances from the crystal structure to within a few angstroms. Furthermore, energy transfer accurately detects structural changes during ligand binding. Finally, fluorescence-derived distances can be used to guide molecular simulations to find low energy states. Our results open the door to rapid, accurate mapping and prediction of protein structures at low concentrations, in large complex systems, and in living cells.Copyright © 2013 Elsevier Ltd. All rights reserved.