机构地区:[1]State Key Laboratory of Rice Biology and Breeding,China National Rice Research Institute,Hangzhou 310006,Zhejiang,China [2]State Key Laboratory of Molecular Developmental Biology,Institute of Genetics and Developmental Biology,Innovation Academy for Seed Design,Chinese Academy of Sciences,Beijing 100101,China [3]Biotechnology Research Institute,Heilongjiang Academy of Agricultural Sciences,Harbin 150028,Heilongjiang,China [4]Rice Research Institute,Guangdong Academy of Agricultural Sciences,Guangzhou 510640,Guangdong,China [5]Yazhouwan National Laboratory,Sanya 572024,Hainan,China [6]State Key Laboratory of Plant Genomics,Institute of Genetics and Developmental Biology,Chinese Academy of Sciences,Beijing 100101,China [7]Academician Workstation,National Nanfan Research Institute(Sanya),Chinese Academy of Agricultural Sciences,Sanya 572024,Hainan,China
出 处:《The Crop Journal》2025年第2期490-500,共11页作物学报(英文版)
基 金:supported by grants from the Chinese Academy of Sciences(XDA24010101);the Biological Breeding-National Science and Technology Major Project(2024ZD04077);the National Key Research and Development Program of China(2023YFF1001200);Natural Science Foundation of Zhejiang Province(LD24C130001);the Agricultural Science and Technology Innovation Program(ASTIP)of CAAS。
摘 要:A later heading date generally leads to higher grain yield in favorable ecological regions;however,grain yield reaches a limit as the heading date exceeds a certain threshold.Ghd7 is the first cloned major gene that regulates heading date,plant height and grain number.Here,we investigated the relationship between Ghd7 and florigen genes Hd3a and RFT1,to determine their roles in regulating heading date and grain number under different photoperiods.Our results revealed that under long-day(LD)conditions,Hd3a acts prior to RFT1 to promote heading while negatively regulating plant height and grain number.In contrast,Ghd7 positively regulates heading date,plant height,and grain number by inhibiting both Hd3a and RFT1.Under short-day(SD)conditions,the functions of Hd3a and RFT1 remain consistent with those under LD conditions,but Ghd7 does not inhibit their expression,resulting in a weaker phenotypic effect compared to Hd3a.Additionally,under both LD and SD conditions,increased Ghd7 expression enhances its inhibitory effect on Hd3a and RFT1,leading to later heading and increased grain number;however,once the heading date exceeds 94 d,grain number no longer increases.Moreover,the gn1a allele increased grain number by 16.5%to 42.5%,while combinations of the elite alleles from Ghd7,Hd3a,RFT1,and Gn1a significantly increased grain number by up to 240.9%.Therefore,we propose a new breeding strategy to optimize the heading date and grain number using the Ghd7Hd3aRFT1gn1a combination of Ghd7,Hd3a,RFT1,and Gn1a under LD conditions,and the Ghd7hd3aRFT1gn1a combination under SD conditions.This strategy improved the yield of the high-quality Northeast variety Kongyu 131(KY131)by 69.1%in Beijing and 93.7%in Hainan.This strategy will greatly improve the efficiency of north-to-south adaptation in rice,providing theoretical guidance for expanding the geographical adaptability of rice varieties.
关 键 词:ADAPTATION Elite gene combinations Oryza sativa Photoperiod response
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