Titlebook: Climate Change, Photosynthesis and Advanced Biofuels; The Role of Biotechn Ashwani Kumar,Yuan-Yeu Yau,Renate Scheibe Book 2020 Springer Nat

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Synthetic Biology and Future Production of Biofuels and High–Value Productsction may produce a single fermentation product and might possess high substrate utilization and processing capacities. Such microorganisms may also possess fast and deregulated pathways for sugar transport, good tolerance to inhibitors and product, and high metabolic fluxes. The choice to produce s

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Kinetics Genetics and Heterosisetic and molecular basis despite over a century of investigation. Some recent studies of the so-called single-gene heterosis and large-scale genomic/phenomic studies have suggested that genes typically involved with quantitative traits seem to be the major determinants of heterosis rather than compl

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Genome Information Resources to Improve Plant Biomass Productivityful for biomass feedstocks. In this chapter, we provide an overview of recent advances in genome resource development in biomass plants. Specifically, we focus on grass species such as maize, sugarcane, sorghum, switchgrass, and . spp. as well as oil crops such as soybean, sunflower, ., and oil palm

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Current Transformation Methods for Genome–Editing Applications in Energy Crop Sugarcaneices has been limited by its complex polyploid genome. Considerable improvements have been made with sugarcane through transgenic technology. Biolistic and . transformation methods have been regularly employed to develop transgenic sugarcane containing key agronomic traits. Transgenic sugarcane has

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Development of Transgenic Sugarcane for Insect Resistancetors daily. In order to meet this demand, sustainable sugarcane yield improvement is inevitable. Yield loss in sugarcane due to insect pests ranges from 10 to 30%. Despite application of insecticides, pesticides, other chemicals, and different integrated pest management (IPM) techniques, scope for i

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https://doi.org/10.1007/978-0-230-51323-5transformation method. Efficient sugarcane transformation protocols will be vital in harnessing the potential of this cash crop. This chapter describes recent advances in sugarcane transformation and highlights novel improvement strategies to enhance target gene expression.