Titlebook: Microalgae Biotechnology for Development of Biofuel and Wastewater Treatment; Md. Asraful Alam,Zhongming Wang Book 2019 Springer Nature Si

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Advanced Gene Technology and Synthetic Biology Approaches to Custom Design Microalgae for Biodiesel icroalgae possess inherent capability to accumulate high amounts of lipids (mostly as triacylglycerols) under adverse physiological conditions, which can be transesterified to form biodiesel. Since the last decade, research is being focused on finding targets to increase the biomass and lipid produc

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Manipulation of Microalgal Lipid Production: A Genetic Engineering Aspectoalgae have important human uses, i.e., energy, food, and pharmaceuticals, depending on its quantity and quality. Genetic engineering is the introduction or suppression of a target gene for the selective expression of a bio-product, e.g., hydrocarbons for fuel or polyunsaturated fatty acids (PUFAs)

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Biodiesel, Bioethanol, and Biobutanol Production from Microalgaecally demanded. First-generation biofuels are mainly produced from edible crops and oilseeds. Because of competition with human food, first-generation biofuels are restricted in their ability to accomplish the global biofuel need, climate change amendment, and economic growth. Consequently, second-g

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Progress and Challenges in Biodiesel Production from Microalgae Feedstock approach for continuous source of energy. Microalgae are considered as a desirable feedstock for biodiesel production due to its inherent capacity to synthesize large amount of oil. The key steps in microalgae biofuel synthesis are cell culture, cell recovery, lipid removal, and fatty acid methyl e

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