New x-ray spectroscopy explores hydrogen-generating catalyst

New x-ray spectroscopy explores hydrogen-generating catalyst

9:07 AM, 27th November 2017
New x-ray spectroscopy explores hydrogen-generating catalyst
Using NRVS, a new X-ray spectroscopy technique, UC Davis researchers identified key steps for hydrogen-forming enzymes.

DAVIS, US: Using a newly developed technique, researchers from Japan, Germany and US have identified a key step in production of hydrogen gas by a bacterial enzyme. Understanding these reactions could be important in developing a clean-fuel economy powered by hydrogen.

The team studied hydrogenases – enzymes that catalyze production of hydrogen from two widely distributed organisms: Chlamydomonas reinhardtii, a single-cell algae and Desulfovibrio desulfuricans, a bacterium.

In both cases, their hydrogenase enzymes have an active site with two iron atoms. The study is published online in the Journal of the American Chemical Society.

“Among hydrogenases, [FeFe] hydrogenase has the highest turnover rate (molecular hydrogen production rate) and therefore has a potential role in the future hydrogen economy, either by a direct use or by a synthetic complex which has a similar reaction center,” said professor Stephen Cramer in the University Of California Davis (UC Davis) department of chemistry and coauthor on the paper along with graduate students Cindy Pham (co-first author) and Nakul Mishra and project scientist Hongxin Wang in the same department.

The researchers used a technique called nuclear resonant vibrational spectroscopy (NRVS) to follow the vibrational structures and analysis activity at the iron atoms in the enzyme. NRVS requires special equipment, and is currently only available at four sites in the world: the SPring-8 synchrotron in Hyogo, Japan, where this study was carried out; the Advanced Photon Source at Argonne National Laboratory, Illinois; the European Synchrotron Radiation Facility in Grenoble, France; and Petra-III in Hamburg, Germany.

Using NRVS, the team could show that the iron atoms briefly form a hydride (iron-hydrogen) before releasing molecular hydrogen (H2). It’s the first successful experiment of its type on naturally occurring [FeFe] hydrogenases, Wang said.

“The successful outcome of this research is due to the broad collaboration between biochemists, spectroscopists, experimental physicists and theoreticians,” Wang said. “This starts a journey to pursue iron specific information for all the intermediates in [FeFe] hydrogenase in the future.”

Additional authors on the paper are: Vladimir Pelmenschikov, Technical University of Berlin, Germany; James Birrell, Constanze Sommer, Edward Reijerse and Wolfgang Lubitz, Max Planck Institute for Chemical Energy Conversion, Mulheim an der Ruhr, Germany; Casseday Richers and Thomas Rauchfuss, University of Illinois; Kenji Tamasaku and Yoshitaka Yoda, SPring-8, Hyogo, Japan.

The work was supported in part by grants from the National Institutes of Health and the Max Planck Society.

© UC Davis

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