摘要
全球人口持续增长、极端天气频发等因素给全球粮食安全带来新的挑战,需要开辟新的育种途径提升作物育种性状。近年来,生物技术(biotechnology,BT)与人工智能、大数据等信息技术(information technology,IT)的深度融合推进了智能设计育种技术的快速发展。智能设计育种技术加速多维组学全景图谱绘制、基因调控网络解析和全基因组优异等位变异的挖掘,并通过基因组设计改良育种性状。作物育种性状受到遗传、表观遗传和环境因素协同调控,表观遗传与二者的互作起着关键作用。智能设计技术的发展使得基于表观遗传的设计育种成为可能,成为提升作物育种性状的新途径。表观遗传学与人工智能的深度融合极大地促进了表观遗传全基因组修饰位点的鉴定和调控网络解析,创新了基于表观遗传修饰位点的回路设计,实现定向创制综合性状优良的新种质和培育新品种。
The rapid growth of the global population and tremendous climatic changes are new challenges for food security and compel breeders to develop new avenues of crop breeding.In recent years,the deep integration of biotechnology(BT)with artificial intelligence(AI),big data,and other information technology(IT)has promoted the rapid development of intelligent design breeding technology.AI-based breeding technology accelerates multiomics mapping and functional elucidation and the identification of excellent allele variations around the genome,and breeds new varieties through genome design breeding traits.The crucial agricultural breeding traits of crops are synergistically regulated by genetic,epigenetic,and environmental factors that epigenetic marks bridge other factors playing a pivotal role in the regulation of traits.The development of intelligent design technology makes it possible for accurate design breeding based on epigenetic inheritance,which is becoming a new way to improve crop breeding traits.The deep integration of epigenetics and AI has greatly facilitated the identification of genome-wide epigenetic modification sites and the elucidation of regulatory mechanisms.The design of regulatory circuits based on these epigenetic sites has been innovated to achieve the directional creation of new germplasm with excellent comprehensive traits and the cultivation of major varieties.
作者
郭位军
李东维
谢上
杨立文
李聪
田健
普莉
谷晓峰
GUO Weijun;LI Dongwei;XIE Shang;YANG Liwen;LI Cong;TIAN Jian;PU Li;GU Xiaofeng(Biotechnology Research Institute,Chinese Academy of Agricultural Sciences,Beijing 100081,China)
出处
《中国农业科技导报》
CAS
CSCD
北大核心
2022年第12期90-100,共11页
Journal of Agricultural Science and Technology
基金
中国工程院战略咨询项目(2021-JZ-12)
国家自然科学基金重点项目(32130080)
中央级公益性科研院所基本科研业务费专项(Y2022PT22)。
关键词
表观遗传学
人工智能
智能设计育种
修饰位点
调控回路
epigenetics
artificial intelligence
smart design
modification sites
regulatory circuits
