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Role of respiratory terminal oxidases in the extracellular electron transfer ability of cyanobacteria

Biotechnol Bioeng. 2018-02-01; 
Narendran Sekar, Jian Wang, Yan Zhou, Yi Fang, Yajun Yan, Ramaraja P Ramasamy
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Codon Optimization … grown at 30 ± 2°C at 100 rpm under continuous illumination using fluorescent lamps (80 µmol m −2 s −1 ). The coding sequence of omcS gene from G. sulfurreducens PCA strain (NC_002939.5) was codon optimized for expression in S. elongatus and synthesized by Genscript Get A Quote

摘要

Cyanobacteria are used as anode catalysts in photo-bioelectrochemical cells to generate electricity in a sustainable, economic, and environmental friendly manner using only water and sunlight. Though cyanobacteria (CB) possess unique advantage for solar energy conversion by virtue of its robust photosynthesis, they cannot efficiently perform extracellular electron transfer (EET). The reasons being, unlike dissimilatory metal reducing bacteria (that are usually exploited in microbial fuel cells to generate electricity), (1) CB do not possess any special features on their outer membrane to carry out EET and, (2) the electrons generated in photosynthetic electron transport chain are channeled into competing respir... More

关键词

cytochrome oxidase, extracellular electron transfer, outer membrane cytochrome, photocurrent, quinol oxidase, respiratory terminal oxidase
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