| Literature DB >> 30091096 |
Anagha Krishnan1, Xiao Qian2, Gennady Ananyev2, Desmond S Lun3,4,5, G Charles Dismukes6,7.
Abstract
With the demand for renewable energy growing, hydrogen (H2) is becoming an attractive energy carrier. Developing H2 production technologies with near-net zero carbon emissions is a major challenge for the "H2 economy." Certain cyanobacteria inherently possess enzymes, nitrogenases, and bidirectional hydrogenases that are capable of H2 evolution using sunlight, making them ideal cell factories for photocatalytic conversion of water to H2. With the advances in synthetic biology, cyanobacteria are currently being developed as a "plug and play" chassis to produce H2. This chapter describes the metabolic pathways involved and the theoretical limits to cyanobacterial H2 production and summarizes the metabolic engineering technologies pursued.Entities:
Keywords: BioH2; Bioenergy; Biofuel; Cyanobacteria; Dark fermentation; Hight-throughput screen; Hydrogenase; Metabolic engineering; Metabolism; Nitrogenase; Photobiological H2; Synthetic biology
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Year: 2018 PMID: 30091096 DOI: 10.1007/978-981-13-0854-3_8
Source DB: PubMed Journal: Adv Exp Med Biol ISSN: 0065-2598 Impact factor: 2.622