By Ashok Pandey, Jo-Shu Chang, Patrick C Hallenbeck and Christian Larroche (Eds.)
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Shown are the various possibilities for connecNADH ethanol NADH tion of different hydrogenases to glycolysis and ATP ATP pyruvate degradation suggested by the present Butanol evidence. Some aspects are speculative and will Butyrate ADP ADP require further verification. Some organisms Etc. Echdegrade at least part of the pyruvate to AcetylH2 can [NiFe] formate through the pyruvate formate lyase CoA (PFL) pathway. In organisms such as Escherchia coli, hydrogen is produced from formate via a FdCO2 H2 special class of [NiFe]-hydrogenase, the Ech hy[FeFe] drogenase.
METABOLIC ENGINEERING OF MICROORGANISMS FOR BIOHYDROGEN PRODUCTION bacteria is another method of producing H2. , 2009). , 2002, 2003). The purpose of this chapter is to update recent developments in metabolic engineering to improve microbial biohydrogen production. Major challenges of the H2 production methods and the efforts made to deal with these challenges are covered in three separate sections: biophotolysis, photofermentation, and dark fermentation. The stability, efficiency, yield, and production rate of H2-producing biocatalysts in the three methods are discussed.
Int. J. Hydrogen Energy 36 (14), 8758–8764. , 2011. Enhancement of bioenergy production from organic wastes by twostage anaerobic hydrogen and methane production process. Bioresour. Technol. 102 (18), 8700–8706. , 2011. The NiFe -hydrogenase of the Cyanobacterium Synechocystis sp PCC 6803 works bidirectionally with a bias to H-2 production. J. Am. Chem. Soc. 133 (29), 11308–11319. , 2010. Carbon dioxide fixation as a central redox cofactor recycling mechanism in bacteria. Proc. Natl. Acad. Sci.
Biohydrogen by Ashok Pandey, Jo-Shu Chang, Patrick C Hallenbeck and Christian Larroche (Eds.)