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W1966841567 abstract "•Photosynthetic microbes have potential to become prominent sources of bioenergy. •It is presumed that potential could be realized only after genetic engineering of microbes. •Microbial consortia can perform more complex tasks than monocultures. •Synthetic biology of microbial consortia can complement current efforts. •Proof-of-concept for the development of carbon- or nitrogen-producing parts is available. There is currently much interest in developing technology to use microlgae or cyanobacteria for the production of bioenergy and biomaterials. Here, we summarize some remarkable achievements in strains improvement by traditional genetic engineering and discuss common drawbacks for further progress. We present general knowledge on natural microalgal–bacterial mutualistic interactions and discuss the potential of recent developments in genetic engineering of multispecies microbial cell factories. This synthetic biology approach would rely on the assembly of complex metabolic networks from optimized metabolic modules such as photosynthetic or nitrogen-fixing parts. There is currently much interest in developing technology to use microlgae or cyanobacteria for the production of bioenergy and biomaterials. Here, we summarize some remarkable achievements in strains improvement by traditional genetic engineering and discuss common drawbacks for further progress. We present general knowledge on natural microalgal–bacterial mutualistic interactions and discuss the potential of recent developments in genetic engineering of multispecies microbial cell factories. This synthetic biology approach would rely on the assembly of complex metabolic networks from optimized metabolic modules such as photosynthetic or nitrogen-fixing parts." @default.
W1966841567 created "2016-06-24" @default.
W1966841567 creator A5009160454 @default.
W1966841567 creator A5056059561 @default.
W1966841567 creator A5067609641 @default.
W1966841567 creator A5069056506 @default.
W1966841567 date "2013-09-01" @default.
W1966841567 modified "2023-10-07" @default.
W1966841567 title "Genetic engineering of multispecies microbial cell factories as an alternative for bioenergy production" @default.
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W1966841567 doi "https://doi.org/10.1016/j.tibtech.2013.05.006" @default.
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