Biohydrogen is perceived as the versatile fuel of the future, having the ability to replace fossil
fuels in many industrial and commercial sectors and offering the promise of fulfilling future …

The replacement of fossil and agricultural feedstocks with sustainable alternatives for the
production of chemicals and fuels is a societal and environmental necessity. This challenge …

Hydrogen oxidizing bacteria (HOB), a type of chemoautotroph, are a group of bacteria from
different genera that share the ability to oxidize H 2 and fix CO 2 to provide energy and …

Biocatalysis-based synthesis can provide a sustainable and clean platform for producing
chemicals. Many oxidative biocatalytic routes require the cofactor NAD+ as an electron …

Molecular hydrogen (H 2) is considered as an ideal energy carrier to replace fossil fuels in
future. Biotechnological H 2 production driven by oxygenic photosynthesis appears highly …

Under anaerobic conditions, Escherichia coli is able to metabolize molecular hydrogen via
the action of several [NiFe]-hydrogenase enzymes. Hydrogenase-2, which is typically …

Genetic Engineering, Synthetic Biology and the Light Reactions of Photosynthesis | Plant
Physiology | Oxford Academic Skip to Main Content Advertisement Oxford Academic Journals …

Hydrogenases are complex metalloenzymes, showing tremendous potential as H2-
converting redox catalysts for application in light-driven H2 production, enzymatic fuel cells …

Abstract Background O2-tolerant [NiFe]-hydrogenases offer tremendous potential for
applications in H2-based technology. As these metalloenzymes undergo a complicated …

Solar-driven electrolysis enables sustainable production of molecular hydrogen (H 2), which
represents a cheap and carbon-free reductant. Knallgas bacteria like Ralstonia eutropha are …