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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亂砍

Genome Editing Tools for Food Securityte is not enough. There is a dire need of improving food crops to enhance production and deal with changing climate, reduction in existing water resources and less arable land. Traditional approaches are also being used for improvement in agricultural productivity, but the dawn of genome editing tec

間接

CRISPR-Cas9/Cpf1-Based Multigene Editing in Cropsnable efficient targeted modification for various trait improvements in crop plants. CRISPR/Cas-based multigene editing in plants is known to edit the targets in various ways that include introduction of alien DNA inserts, generation of knockout mutations and altering of nitrogenous bases via deamin

Antecedent

CRISPR/Cas9 Tools for Multiplex Genome Editing in Crops to improve multiple traits but also for functional analysis of gene families. To solve the problem of delivery of many T-DNAs with separated binary vectors into plant cells at the same time, several approaches have been developed to express multiple gRNA cassettes from a single CRISPR/Cas9 vector.

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Type-1-Diabetes

Genome Editing in Crops Via Homology-Directed Repair Using a Geminivirus-Based CRISPR/Cas9 Systemough gene knockout (KO) breeding, the next-shifts are focused on the precise gene knock-in (KI) through homology-directed repair (HDR), a DNA repair pathway in which the CRISPR/Cas-induced DNA cleavage is repaired in the presence of homologous repair templates. To facilitate the delivery of these re

Type-1-Diabetes

盡責(zé)

Expanding the Scope of Base Editing in Crops Using Cas9 Variantseveloped as novel editing platforms that facilitates specific base modification minus the introduction of double stranded break or homologous recombination. Base editors typically consisted of non-functional CRISPR–Cas9 motif (Cas9 variants) fused with cytosine (CBEs) or adenosine deaminase (ABEs) p

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