Titlebook: Genome Editing Technologies for Crop Improvement; Kaijun Zhao,Rukmini Mishra,Raj Kumar Joshi Book 2022 Springer Nature Singapore Pte Ltd.

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The Use of CRISPR Technologies for Crop Improvement in Maizeand repair of chromosomal DNA double-strand breaks (DSBs). Using this approach, we first illustrate how two Cas9-induced DSBs can be used to cleanly excise an entire gene to alter starch composition in maize kernels. Next, we show how transgenes can be inserted at Cas9 DSB sites using homology-direc

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Accelerating Cereal Breeding for Disease Resistance Through Genome Editingerate the cereal-breeding programs. In this chapter, we discuss the recent changes in pathogen populations that pose a challenge to cereal productivity, success stories of disease resistance development in cereal crops through genome editing, potential applications and issues in deployment of genome

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ing tools towards crop improvement. This book will be of particular interest to plant biologists working in the field of genome editing and crop breeders. It will provide valuable information and useful material for our readers’ experimental work.978-981-19-0602-2978-981-19-0600-8

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Winning and Noteworthy Competition Schemese been developed to yield the mature gRNA. Optimization of the Cas9 expression promoter is another important approach to further improve multiplex genome editing, and the tissue-specific expression of . leads to the induction of precise mutations with low levels of mosaicism. The development of mult

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Designing Transistor I.F. Amplifiersd to important agronomic traits in many crops. In this chapter, we have presented a concise idea on the base editing platforms and focused on the application of new ABEs and CBEs with Cas9 variants in crop improvement.

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Kwame Nkrumah: Ghana’s Nationalist Iconand repair of chromosomal DNA double-strand breaks (DSBs). Using this approach, we first illustrate how two Cas9-induced DSBs can be used to cleanly excise an entire gene to alter starch composition in maize kernels. Next, we show how transgenes can be inserted at Cas9 DSB sites using homology-direc

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https://doi.org/10.1007/978-0-85729-372-5erate the cereal-breeding programs. In this chapter, we discuss the recent changes in pathogen populations that pose a challenge to cereal productivity, success stories of disease resistance development in cereal crops through genome editing, potential applications and issues in deployment of genome