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

漂浮

Establishing LCA in the Healthcare Sector unit domain with different linkers in plants. So far, the CRISPR-Cas12a system is with higher efficiency, specificity, and easier for gene insertion and large fragment deletion. In this chapter, we summarize the current knowledge of CRISPR-Cas12a system, including found, mechanism, development, application in plants, and prospects.

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Enliven

intangibility

Book 2022n about various genome editing tools and their application in major crops. It discusses the genome editing approaches and the strategies used for genome editing in different crops. Some of the chapters cover the detailed methodology of sgRNA design, vector construction and transformation in differen

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Toxoid-Vaccines

Pudendal-Nerve

https://doi.org/10.1007/978-3-319-47917-0arly interspaced short palindromic repeat) technology in soybean. Meanwhile, we also review its limitations and future utilization potentiality. We believe that future agricultural development will focus on combinations of desirable agronomic traits, and genome editing has huge potential in precision soybean breeding.

刻苦讀書(shū)

Plant Precise Genome Editing by Prime Editingthis chapter, we briefly introduce the advances and potential applications of the PPEs. The efficiency enhancement of PPEs is also discussed, which would be extensively focused on recent research of development of editing tools.

泰然自若

Genome Editing Towards Sorghum Improvementmes to further improve key phenotypic traits. Current sorghum genome editing techniques have resulted in various trait improvements, such as grain quality. This chapter provides an overview of established and novel methods in sorghum genome editing and transformation, including applications and future directions for sorghum improvement.

Arboreal

Genome Editing Technologies Contribute for Precision Breeding in Soybeanarly interspaced short palindromic repeat) technology in soybean. Meanwhile, we also review its limitations and future utilization potentiality. We believe that future agricultural development will focus on combinations of desirable agronomic traits, and genome editing has huge potential in precision soybean breeding.