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ASU scientists improving algal hydrogen production

November 12, 2017
AlgaeIndustryMagazine.com

Kevin Redding’s research group at Arizona State U. is working on a method to produce industrial scale hydrogen from algae, and targeting a five-fold improvement over current technology.

Changing the way the nation generates and consumes energy is at the heart of a new NSF grant awarded to Arizona State University and Kevin Redding, professor in the School of Molecular Sciences and director of the Center for Bioenergy and Photosynthesis (CB&P).

The goal of Dr. Redding and his research group is to obtain industrial scale algal hydrogen production, a goal that requires an improvement over current technology by at least five-fold.

“I do not view hydrogen so much as a fuel, but as an essential commodity that we consume at a rate of over 20 million metric tons per year – and which we now make by steam reformation of fossil fuels, a process that is energy intensive and produces carbon dioxide,” said Dr. Redding.

“If we could replace even a part of that with algal biohydrogen that is made via light and water, it would have a substantial impact. However, the state of the biohydrogen field is not even close to where it needs to be in order to be commercially viable,” he says.

Plants and algae, as well as cyanobacteria, use photosynthesis to produce oxygen and “fuels,” the latter being oxidizable substances like carbohydrates and hydrogen. There are two pigment-protein complexes that orchestrate the primary reactions of light in oxygenic photosynthesis: Photosystem I (PSI) and Photosystem II (PSII).

“We thought that some radically different approaches needed to be taken,” he said, “thus, our crazy idea of hooking up the hydrogenase enzyme directly to Photosystem I in order to divert a large fraction of the electrons from water splitting (by Photosystem II) to make molecular hydrogen.”

Algae (in this case the single-celled green alga Chlamydomonas reinhardtii,) possess an enzyme called hydrogenase that uses electrons it gets from the protein ferredoxin, which is used to ferry electrons from PSI to various destinations. The algal hydrogenase is rapidly and irreversibly inactivated by oxygen that is constantly produced by PSII.

“Using the kinked PSI-hydrogenase concept, Andrey Kanygin, the doctoral student working on the project, has managed to produce an engineered alga that gives the best sustained hydrogen production of any alga ever,” said Dr. Redding. “Working with Alec Smith, a Barrett Fellow of the CB&P, they have produced a new strain that has the highest initial rate ever measured, but later it drops. With this grant, we can hopefully produce an organism with the best of both: high rates that are sustained for long times.”

In a future commercial system, one will want to be able to grow the cells normally at first, and then switch them to a mode in which most of the electrons are diverted to make hydrogen — essentially crossing over from a cheap replicating system to a “biofactory” in which sunlight drives production of hydrogen using water. The proposed systems provide an obvious way to do that by turning on the genes encoding the linked PSI-hydrogenase proteins. Consequently, electrons will be diverted away from carbon dioxide fixation to hydrogen production.

The NSF grant is part of the U.S. — Israel Binational Science Foundation (BSF). In this arrangement, a U.S. scientist and an Israeli scientist join forces to form a joint project. The U.S. partner submits a grant on the joint project to the NSF, and the Israeli partner submits the same grant to the ISF (Israel Science Foundation). Both agencies must agree to fund the project in order to obtain the BSF funding.

Professor Iftach Yacoby, of Tel Aviv University, Redding’s partner on the BSF project, is a young scientist who first started at TAU about 5 years ago and has focused on different ways to increase algal biohydrogen production. “Iftach is taking very different approaches to this problem, which I see nobody else out there doing,” said Dr. Redding. “Some of his work is a little controversial, but I think his basic conclusions are sound. We have been talking to each other on and off for a few years, but recently we came to realize that our approaches and skills are very complementary. It is a natural partnership. We are already working on our first two joint manuscripts.”

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