Titlebook: Carotenoids: Biosynthetic and Biofunctional Approaches; Norihiko Misawa Book 2021 Springer Nature Singapore Pte Ltd. 2021 Carotenoid biosy

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a Versatile Platform for the Production of Carotenoids and Other Acetyl-CoA-Derived Compounds is caused by the accumulation of astaxanthin, which is a unique feature among fungi. The present chapter reviews astaxanthin biosynthesis and acetyl-CoA metabolism in . and describes the construction of a versatile platform for the production of carotenoids, such as astaxanthin, and other acetyl-Co

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Carotenoid Production in Oleaginous Yeastsor cost-efficient production of industrial biodiesel fuel. These yeasts are also very promising hosts for the efficient production of more value-added lipophilic compound carotenoids, e.g., lycopene and astaxanthin, although they cannot naturally biosynthesize carotenoids. Here, we review recent pro

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When Carotenoid Biosynthesis Genes Met , : The Early Days and These Daysing for isoprenoid (terpene) production, carotenoids have been one of the most studied targets. However, in 1988 when the author started carotenoid research, almost no carotenoid biosynthesis genes were identified. It was because carotenogenic enzymes are easily inactivated when extracted from their

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Pathway Engineering Using , to Produce Commercialized Carotenoidse reasonable and cost-effective alternatives to extraction from natural sources and chemical synthesis. Among heterologous hosts, . is one of the most useful and manageable. To date, many approaches using recombinant . are available to produce various carotenoids. Here we outline the latest caroteno

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Fecal Microflora from Dragonflies and Its Microorganisms Producing Carotenoidsons different from mammalian intestinal tracts. This chapter describes the bacterial flora formed in the intestines of two dragonfly species, “akatombo” (the red dragonfly; .) and “usubaki-tombo” (.), which fly over a long distance, and carotenoid-producing microorganisms isolated from this flora. C

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Norihiko MisawaExplains the biological functions of carotenoids, including astaxanthin, ?-cryptoxanthin, and fucoxanthin.Highlights new trials to elucidate carotenoid biosynthesis in relation to organism classificat

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