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单倍体育种技术及其在水稻遗传改良中的研究进展OA

Haploid Breeding Techniques and Research Progress in Rice Genetic Improvement

中文摘要英文摘要

针对传统水稻育种周期长、纯合效率低的问题,为推动育种技术革新与精准改良,本文系统梳理单倍体育种技术发展历程,重点分析花药离体培养、远缘杂交等传统方法,及CRISPR/Cas9基因组编辑技术靶向编辑REC8、PAIR1、OsD1等基因的诱导技术,系统优化了诱导、鉴定与染色体加倍等关键环节.研究表明:(1)技术融合显著提高了单倍体诱导效率(从0.5%~2%提高至10%~15%),拓宽了基因型编辑范围,实现了性状定向改良,使双单倍体(DH系)创制周期缩短至2~3年,育种效率较常规方法提高3~5倍.(2)建立包含分子标记、流式细胞术的多维鉴定体系,拓宽基因型编辑范围.(3)成功培育"中花"系列、"粳两优202/181"等优良品种.综上,单倍体育种实现水稻性状定向改良,成为遗传改良核心技术.同时指出,当前该技术仍面临单倍体自发加倍机制不明、嵌合体消除困难等技术瓶颈,提出通过智能育种与合成生物学技术的深度研究与融合,单倍体育种将推动水稻育种迈入设计育种新阶段,为保障粮食安全提供持续技术支持.

Aiming at the problems of long breeding cycle and low homozygous efficiency in traditional rice breeding,in order to promote the innovation and accurate improvement of breeding technology,this paper systematically combs the development process of haploid breeding technology,focusing on the analysis of traditional methods such as anther culture in vitro and parthenogenesis/androgenesis,and inducing technology using CRISPR/Cas9-mediated targeted editing of key meiotic genes(e.g.,REC8,PAIR1,OsD1)and the parthenogenesis-related gene OsMTL,and systematically optimizes the key links such as induction,identification and chromosome doubling.The results demonstrate that technology integration has significantly enhanced haploid induction efficiency(from 0.5%-2%to 10%-15%),expanded the genotype editing scope and facilitated targeted trait improvement.The development cycle of doubled haploid(DH)lines has been shortened to 2-3 years,resulting in a 3-5 fold increase in breeding efficiency compared to conventional approaches.A multidimensional identification system integrating molecular markers and flow cytometry has been successfully established,and excellent varieties such as' Zhonghua' series and'Jingliangyou 202/181'were successfully cultivated.This review also highlights existing technical challenges,including the unclear mechanism of spontaneous haploid doubling and difficulties in eliminating chimeras.It is proposed that through deeper integration of smart breeding and synthetic biology,haploid breeding will advance rice breeding into a new design breeding stage,providing sustained technological support for ensuring food security.

张金霞;牛佳宇;黄金华;桑世飞;张倩倩;刘贺梅;孙建权;胡秀明;殷春渊;王和乐;李凤梅

新乡市农业科学院,河南新乡 453002新乡学院,河南新乡 453003新乡市农业科学院,河南新乡 453002河南师范大学,河南新乡 453007新乡市农业科学院,河南新乡 453002新乡市农业科学院,河南新乡 453002新乡市农业科学院,河南新乡 453002新乡市农业科学院,河南新乡 453002新乡市农业科学院,河南新乡 453002新乡市农业科学院,河南新乡 453002新乡学院,河南新乡 453003

农业科技

单倍体单倍体诱导系体内诱导基因编辑OsMTL

haploidhaploid induction linein vivo inductiongene editingOsMTL

《中国农学通报》 2026 (3)

1-10,10

河南省重点研发专项"优质高产绿色高效水稻新品种选育与应用"(231111110500)河南省省级创新生态支撑专项资金项目"河南省现代农业产业技术体系粳稻育种岗位专家"(HARS-22-03-G1)河南省科技攻关计划项目"基于香味基因Badh2创制优质、抗病香稻新种质"(242102110276).

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