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

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Carotenoid Biosynthesis in the Phylum three different types: 1) carotenoid of C50 chain length, 2) carotenoids with aromatic end groups, and 3) keto carotenoid like canthaxanthin (β,β-carotene-4,4′-dione) or monocyclic keto-γ-carotene derivatives. Species from the genus . are the only known . with a simultaneous pathway to aromatic and to keto carotenoids.

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Pathway Engineering Using , to Produce Commercialized Carotenoids useful and manageable. To date, many approaches using recombinant . are available to produce various carotenoids. Here we outline the latest carotenoid production research using recombinant . produced through pathway engineering and its future prospects.

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Residual Spacetime Representations,tenoid-rich strains. This chapter focuses on carotenoid production in microalgae and cyanobacteria, as well as strategies and potential target genes for metabolic engineering. Recent achievements in metabolic engineering that improved carotenoid production in microalgae and cyanobacteria are also reviewed.

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Jones and Other CrO3-Based Oxidations,ealed. Besides, potential biotechnological uses of haloarchaeal pigments are poorly explored. This work summarizes what it has been described so far about carotenoid production by haloarchaea, haloarchaeal carotenoid production at large scale, as well as the potential uses of haloarchaeal pigments in biotechnology and biomedicine.

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Haloarchaea: A Promising Biosource for Carotenoid Productionealed. Besides, potential biotechnological uses of haloarchaeal pigments are poorly explored. This work summarizes what it has been described so far about carotenoid production by haloarchaea, haloarchaeal carotenoid production at large scale, as well as the potential uses of haloarchaeal pigments in biotechnology and biomedicine.