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Understanding Microbial Rhodopsins by linking Solid-State NMR with computational Approaches

Subject Area Biophysics
Term from 2018 to 2022
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 391643887
 
Membrane proteins of the proteorhodopsin (PR) family are the most abundant retinal-based photoreceptors on this planet. Their function as light-driven proton pump creates a significant contribution to the bioenergetics in marine ecosystems. In addition, they could fulfill an array of additional sensing and regulatory activities. In this project, we will resolve the molecular details of color tuning between green and blue PR as well as red-absorbing mutants at atomic resolution, elucidate structural and electronic changes during the photocycle and dissect the functional role of specific cross-protomer interactions within the native pentamers. This project combines solid-state NMR including dynamic nuclear polarization and light-induced cryo-trapping in the Glaubitz lab, Frankfurt, with QM/MM-based calculations of NMR parameters, absorption spectra and MD simulations in the He lab, Shanghai. In this way, we will be able to connect optical properties with structural and electronic parameters. Such a concerted application of experimental and theoretical approaches will also result in protocols and procedures, which could be applied to other membrane proteins in the future.
DFG Programme Research Grants
International Connection China
Major Instrumentation Schneller MAS Probenkopf für 1H Detektion
Instrumentation Group 1741 Festkörper-NMR-Spektrometer
Cooperation Partner Professor Dr. Xiao He
 
 

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