Perspectives of Genome Editing Mediated Haploid Inducer Systems in Legumes
Yiqian Liu, Musazade Elshan, Geng Li, Xiao Han, Xiao Chen, Xianzhong Feng

TL;DR
This review discusses how genome editing can improve legume breeding by creating haploid inducer systems, speeding up the development of desired crop traits.
Contribution
The paper reviews recent advancements and challenges in applying genome editing for haploid inducer systems in legumes.
Findings
Genome editing-mediated haploid inducer systems can significantly reduce legume breeding cycles.
Recent breakthroughs have expanded the use of these systems in various legume species.
Technical challenges remain in optimizing these systems for widespread application.
Abstract
Genome editing-mediated haploid inducer systems (HISs) present a promising strategy for enhancing breeding efficiency in legume crops, which are vital for sustainable agriculture due to their nutritional benefits and ability to fix nitrogen. Traditional legume breeding is often slow and complicated by the complexity of legumes’ genomes and the challenges associated with tissue culture. Recent advancements have broadened the applicability of HISs in legume crops, facilitating a reduction in the duration of the breeding cycle. By integrating genome editing technology with haploid breeding systems, researchers can achieve precise genetic modifications and rapidly produce homozygous lines, thereby significantly accelerating the development of desired traits. This review explores the current status and future prospects of genome editing-mediated HISs in legumes, emphasizing the mechanisms of…
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Taxonomy
TopicsPlant Virus Research Studies · Chromosomal and Genetic Variations · CRISPR and Genetic Engineering
