All Outputs (2)

Scalable bioreactor production of an O2‐protected [FeFe]‐hydrogenase enables simple aerobic handling for clean chemical synthesis (2024)
Journal Article
Cleary, S. E., Hall, S. J., Galan-Bataller, R., Lurshay, T. C., Hancox, C., Williamson, J. J., …Morra, S. (in press). Scalable bioreactor production of an O2‐protected [FeFe]‐hydrogenase enables simple aerobic handling for clean chemical synthesis. ChemCatChem, https://doi.org/10.1002/cctc.202400193

The enzyme CbA5H, a [FeFe]-hydrogenase from Clostridium beijerinckii, has previously been shown to survive exposure to oxygen, making it a promising candidate for biotechnological applications. Thus far [NiFe]-hydrogenases are typically considered fo... Read More about Scalable bioreactor production of an O2‐protected [FeFe]‐hydrogenase enables simple aerobic handling for clean chemical synthesis.

Oxygen-resistant [FeFe]hydrogenases: new biocatalysis tools for clean energy and cascade reactions (2024)
Journal Article
Valetti, F., Morra, S., Barbieri, L., Dezzani, S., Ratto, A., Catucci, G., …Gilardi, G. (2024). Oxygen-resistant [FeFe]hydrogenases: new biocatalysis tools for clean energy and cascade reactions. Faraday Discussions, https://doi.org/10.1039/d4fd00010b

The use of enzymes to generate hydrogen, instead of using rare metal catalysts, is an exciting area of study in modern biochemistry and biotechnology, as well as biocatalysis driven by sustainable hydrogen. Thus far, the oxygen sensitivity of the fas... Read More about Oxygen-resistant [FeFe]hydrogenases: new biocatalysis tools for clean energy and cascade reactions.