He Xi, Liu Jilu, Ren Xiaomeng, Wei Shurong, Zhu Zhenzhen, Zhang Fuping, Hu Sijia, Ding Yanpeng, Sun Fangyao, Han Dong, Bai Guihua, Ni Zhongfu, Sun Qixin, Su Zhenqi
College of Agronomy and Biotechnology, China Agricultural University, Beijing, 100083, China.
US Department of Agriculture, Hard Winter Wheat Genetics Research Unit, Manhattan, KS, 66506, USA.
Theor Appl Genet. 2025 Feb 5;138(2):46. doi: 10.1007/s00122-025-04824-z.
A novel major QTL, QTkw.cau-3DL, for thousand-kernel weight has been identified on the wheat chromosome arm 3DL and enhances grain yield by 6.2% under field conditions. Increasing kernel weight is an effective way to improve yield potential in wheat. The identification of major quantitative trait loci (QTL) for kernel weight, without negative effects on other yield-related traits, is crucial for continuous yield improvement. We developed a population of F recombinant inbred lines from Jimai 120 × Jimai 325 and identified eight QTL for thousand-kernel weight, kernel length, and kernel width across five environments. The population was genotyped using Wheat15K SNP arrays and QTL analysis found that one QTL, QTkw.cau-3DL, on the chromosome arm 3DL consistently showed major effects on TKW and KL in five field experiments. This QTL accounted for up to 16.43% and 13.87% of phenotypic variation, respectively. QTkw.cau-3DL was confined to a 5.72-Mb (3.48 cM) interval between 554.39 Mb and 560.11 Mb. This QTL was validated in a pair of NILs and in a new population. QTkw.cau-3DL increased kernel weight per spike without any negative effect on heading data, plant height, spike length, spikelet number per spike, or kernels number per spike. It increased grain yield by 6.2% under regular field production conditions. Haplotype analysis and geographical distribution in a nationwide collection of 630 wheat cultivars showed that QTkw.cau-3DL has not been widely deployed in Chinese wheat breeding programs. QTkw.cau-3DL is a novel QTL for increasing TKW through increasing KL; therefore, it is an important locus for enhancing wheat grain yield. The tightly linked, user-friendly markers developed in this study should facilitate map-based cloning and marker-assisted selection of the QTL in wheat breeding programs.
在小麦3DL染色体臂上鉴定出一个控制千粒重的新的主效QTL,即QTkw.cau - 3DL,在田间条件下可使籽粒产量提高6.2%。增加粒重是提高小麦产量潜力的有效途径。鉴定对粒重有主效且对其他产量相关性状无负面影响的数量性状位点(QTL),对于持续提高产量至关重要。我们利用济麦120×济麦325构建了一个F重组自交系群体,并在五个环境中鉴定出8个控制千粒重、粒长和粒宽的QTL。利用Wheat15K SNP芯片对该群体进行基因分型,QTL分析发现,在3DL染色体臂上的一个QTL,即QTkw.cau - 3DL,在五个田间试验中对千粒重和粒长始终表现出主要效应。该QTL分别解释了高达16.43%和13.87%的表型变异。QTkw.cau - 3DL被定位在554.39 Mb至560.11 Mb之间5.72 Mb(3.48 cM)的区间内。该QTL在一对近等基因系和一个新群体中得到验证。QTkw.cau - 3DL增加了每穗粒重,对抽穗期、株高、穗长、每穗小穗数或每穗粒数均无负面影响。在常规田间生产条件下,它使籽粒产量提高了6.2%。对全国630个小麦品种的单倍型分析和地理分布表明,QTkw.cau - 3DL在中国小麦育种项目中尚未广泛应用。QTkw.cau - 3DL是一个通过增加粒长来提高千粒重的新QTL;因此,它是提高小麦籽粒产量的重要位点。本研究开发的紧密连锁、易于使用的标记应有助于在小麦育种项目中对该QTL进行基于图谱的克隆和标记辅助选择。
