Titlebook: Gene Editing in Plants; CRISPR-Cas and Its A Ashwani Kumar,Sudipti Arora,Krishnendu Mukherjee Book 2024 The Editor(s) (if applicable) and T

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Redesigning , Meyen ex E.C. Hansen Using CRISPR to Combat Industrial Needs, of muconic acid, free fatty acids, hydrocortisone, cellobiose utilization or designed for ethanol tolerance, canavanine resistance using sgRNA components while dCAS9 is used to design phenotypes for the production of 2 3-butanediol, isoprenoids, triacylglycerols, glycerol, 3-dehydroshikimate, xylos

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Detailed Insight into Various Classes of the CRISPR/Cas System to Develop Future Crops,traits. Consideration is given to a number of recently developed CRISPR/Cas systems, such as xCas9, Cas12a (Cpf1), prime editing and base editing technologies. We conclude by providing an outlook on the potential uses of CRISPR/Cas technology to develop future crops.

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Role of CRISPR-Cas and Its Application in Mitigating Plant Stress,is a highly advanced technique of multiple sequence-specific nucleases where site-specific gene modification is precisely facilitated, which leads to the development of adaptable, high-yielding, and novel climate-resilient crops. In this chapter, we try to understand the types of biotic and abiotic

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Application of CRISPR for Plant-Mediated Resistance, editing, devoid of off-target mutation, and revolutionizing plant transformation processes. Recently, several studies have been reported utilizing CRISPR-Cas9 to target host genes/factors associated with plant pathogenesis. In this chapter, we will discuss the application of CRISPR-Cas9 to engineer

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CRISPR-Cas and Its Applications in Food Production,s or foreign DNA from a vector into the plant genome; instead, it can be used to remove any undesired gene from the plant genome using its precise mechanism to cut the DNA; therefore, crops produced by this method are more ethically acceptable. In this chapter, we described basic aspects related to

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