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

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Commercial Production of Astaxanthin with the main component. Selective breeding of . has been performed using classical techniques for mutation induction, such as chemical treatment and ultraviolet irradiation, and not using genetic engineering technology. The commercial production of astaxanthin with . has been established by optimizing f

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Production of Carotenoids from Cultivated SeaweedPrefecture with an annual production of around 20,000 tons. The life cycle of . comprises the macroscopic sporophyte (algal body) generation and the microscopic gametophyte generation. The germlings in the latter generation can proliferate when floating in seawater. This floating form has been explo

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Carotenoid Metabolism in Aquatic Animalsrbivorous animals directly ingest carotenoids from dietary algae and metabolize them. Carnivorous animals ingest carotenoids from dietary herbivorous animals and metabolize them. Therefore, carotenoids found in these animals reflect the food chain as well as the metabolic pathways. Carotenoids in aq

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Carotenoid Metabolism in Terrestrial Animalsm plants and other animals and modified them through metabolic reactions. Therefore, most of the carotenoids found in terrestrial animals originated from plants. Conversely, recent investigation revealed that some species of aphids and spider mites synthesized carotenoid themselves by carotenoid bio

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Diversity and Evolution of Carotenoid Biosynthesis from Prokaryotes to Plantsaea and Bacteria and via the latter by endosymbiosis to algae and plants. The formation of carotenoids in fungi can be regarded as a lineage from the archaea. This review highlights the distribution and evolution of carotenogenic pathways in taxonomic groups of prokaryotes and eukaryotes with a spec

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Engineered Maize Hybrids with Diverse Carotenoid Profiles and Potential Applications in Animal Feedintroduced genes express in a coordinated manner and do not segregate in subsequent generations. This simultaneous multiple gene transfer enables the study and modulation of the entire metabolic pathways and the elucidation of complex genetic control circuits and regulatory hierarchies. We used combi

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Carotenoid Biosynthesis in Liverwortstenoid biosynthesis in early-land plants containing liverworts, mosses, and ferns. Thus, the evolutionary history of carotenoid biosynthesis genes in land plants has remained unclear. A liverwort . is thought to be one of the first land plants, since this plant remains a primitive figure. Moreover,

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