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W2058555514 abstract "The concept of “Photosynthetic Biofuels” entails the direct application of photosynthesis for the generation of fuels and chemicals, in a process where a single organism acts both as catalyst and processor, synthesizing and secreting ready to use product. Examples of photosynthetic fuel and chemicals generation are offered in this perspective. Physiological and genetic manipulation of green microalgae enabled diverting the natural flow of photosynthetic electron transport toward sustained generation of hydrogen gas, instead of the normally produced oxygen. Heterologous expression of a plant isoprene synthase gene in cyanobacteria and microalgae enabled the renewable generation of volatile isoprene (C5H8) hydrocarbons, derived from sunlight, carbon dioxide (CO2) and water (H2O). Photobioreactor design concepts and conditions for capturing the isoprene are presented. The process of generating isoprene (C5H8) hydrocarbons serves as a case study in the development of technologies for the renewable generation of a multitude of other fuels and useful chemicals. Green microalgae of the genus Botryococcus afford naturally occurring examples on how to divert the flow of photosynthetic metabolites toward high-value long-chain hydrocarbon products instead of the normally produced sugars. Members of the genus Botryococcus direct photosynthate toward tri-terpenoidbotryococcene hydrocarbons or diene and triene alkanes, at the expense of investing photosynthate toward biomass accumulation. Lastly, methods are offered on how to improve the solar-to-biomass energy conversion efficiency of photosynthesis in high cell-density cultures, or canopies, under bright sunlight conditions. Goal of this effort is to improve efficiency, from the current-best of 2–3% up to a theoretical maximum of about 10%. Advances in each of the above-mentioned fields suggest blueprints of organism genetic and metabolic engineering, by which to improve the performance of photosynthesis and to divert cellular metabolic flux toward alternative high-value bio-products. Successful implementation of this R&D would lead to the generation of commercially viable fuels, chemicals, and other useful bio-products." @default.
W2058555514 created "2016-06-24" @default.
W2058555514 creator A5017189929 @default.
W2058555514 date "2012-01-01" @default.
W2058555514 modified "2023-10-12" @default.
W2058555514 title "Photosynthesis-to-fuels: from sunlight to hydrogen, isoprene, and botryococcene production" @default.
W2058555514 cites W1230760040 @default.
W2058555514 cites W1969846190 @default.
W2058555514 cites W1971956931 @default.
W2058555514 cites W1972300333 @default.
W2058555514 cites W1973868793 @default.
W2058555514 cites W1974772517 @default.
W2058555514 cites W1975501285 @default.
W2058555514 cites W197733770 @default.
W2058555514 cites W1978843373 @default.
W2058555514 cites W1987869901 @default.
W2058555514 cites W1989379048 @default.
W2058555514 cites W1996290254 @default.
W2058555514 cites W1999536236 @default.
W2058555514 cites W2005576174 @default.
W2058555514 cites W2022501366 @default.
W2058555514 cites W2026688176 @default.
W2058555514 cites W2029797853 @default.
W2058555514 cites W2032641946 @default.
W2058555514 cites W2034146539 @default.
W2058555514 cites W2037157109 @default.
W2058555514 cites W2037871094 @default.
W2058555514 cites W2038722085 @default.
W2058555514 cites W2041315964 @default.
W2058555514 cites W2046120957 @default.
W2058555514 cites W2049628928 @default.
W2058555514 cites W2050675707 @default.
W2058555514 cites W2052445961 @default.
W2058555514 cites W2056610828 @default.
W2058555514 cites W2057934624 @default.
W2058555514 cites W2058129609 @default.
W2058555514 cites W2062962181 @default.
W2058555514 cites W2064129143 @default.
W2058555514 cites W2070682666 @default.
W2058555514 cites W2076009954 @default.
W2058555514 cites W2076939671 @default.
W2058555514 cites W2079347688 @default.
W2058555514 cites W2079745750 @default.
W2058555514 cites W2083851391 @default.
W2058555514 cites W2088589945 @default.
W2058555514 cites W2094399323 @default.
W2058555514 cites W2096535082 @default.
W2058555514 cites W2098390695 @default.
W2058555514 cites W2101715504 @default.
W2058555514 cites W2104237015 @default.
W2058555514 cites W2106636153 @default.
W2058555514 cites W2108014542 @default.
W2058555514 cites W2109605799 @default.
W2058555514 cites W2115492173 @default.
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W2058555514 cites W2137914489 @default.
W2058555514 cites W2138182334 @default.
W2058555514 cites W2143448697 @default.
W2058555514 cites W2147954119 @default.
W2058555514 cites W2151193831 @default.
W2058555514 cites W2152375584 @default.
W2058555514 cites W2157165780 @default.
W2058555514 cites W2159958980 @default.
W2058555514 cites W2167336635 @default.
W2058555514 cites W2167364538 @default.
W2058555514 cites W2167897131 @default.
W2058555514 cites W2169332573 @default.
W2058555514 cites W217406916 @default.
W2058555514 cites W2176603852 @default.
W2058555514 cites W2950326424 @default.
W2058555514 cites W4240908898 @default.
W2058555514 cites W4244970568 @default.
W2058555514 cites W43833614 @default.
W2058555514 doi "https://doi.org/10.1039/c1ee02514g" @default.
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