Hydrogen production from a carbon-monoxide oxidation pathway in Rubrivivax gelatinosus

Upon feeding CO to the gas phase of a photosynthetic bacterium Rubrivivax gelatinosus CBS, a CO oxidation: H₂ production pathway is quickly induced. Hydrogen is produced according to the equation CO+H₂O→CO₂+H₂. Two enzymes are known to be involved in this pathway: a CO dehydrogenase (CODH) with a pH optimum of 8.0 and above, and a hydrogenase with a pH optimum near 7.5. Carbon monoxide dehydrogenase also displays a temperature optimum near 50°C. When CO mass transfer is not limited during a CO uptake measurement, an extreme fast rate of CO uptake was determined, allowing for the removal of near 87% of the dissolved CO from a bacterial suspension within 10 s. This process has therefore two potential applications, one in the production of H₂ gas as a clean renewable fuel using the linked CO oxidation: H₂ production pathway, and another in using the CODH enzyme itself as a fuel–gas conditioning catalyst. These applications thereby will improve the overall H₂ economy when gasified waste biomass serves as the inexpensive feedstock.