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Computational characterization of FeFe-Hydrogenase catalytic species


EMSL Project ID
51741

Abstract

We propose to use EMSL supercomputing resources to gain a molecular level understanding of the catalytic mechanism of the interconversion of H2 into electrons and protons and vice versa at the active site of Clostridium pasteurianum [FeFe]-hydrogenase (CpI-H2ase). The projects is intimately related to the DOE Basic Energy Sciences Physical Biosciences proposal at PNNL. This work with employ a comprehensive characterization of the catalytic intermediates in different oxidation states and the role of the enzyme scaffold in modulating the chemical and physical features of the process. Within this proposal we will: (1) study the dynamical behavior of the enzyme in different oxidation states of the active site and the associated FeS clusters involved in the electron transport, focusing on identifying significant conformational changes near the active site and long range couplings (allosteric interactions) triggered by changes at the catalytic center; (2) we will calculate the structures and energetics of the individual steps of the catalytic cycle; (3) we will characterize and verify the spectroscopic signatures of the experimentally newly proposed intermediates in an effort to elucidate their role in the catalysis.

Project Details

Start Date
2020-10-26
End Date
2021-09-30
Status
Closed

Team

Principal Investigator

Simone Raugei
Institution
Pacific Northwest National Laboratory

Co-Investigator(s)

Bojana Ginovska
Institution
Pacific Northwest National Laboratory

Team Members

Conrad Johnston
Institution
Pacific Northwest National Laboratory

Hoshin Kim
Institution
Pacific Northwest National Laboratory