Chengdu Institute of Biology, Chinese Academy of Sciences, Chengdu, 610041, China.
University of Chinese Academy of Sciences, Beijing, 100049, China.
Theor Appl Genet. 2024 Jun 4;137(7):147. doi: 10.1007/s00122-024-04652-7.
Major QTL for grain number per spike were identified on chromosomes 2B and 2D. Haplotypes and candidate genes of QGns.cib-2B.1 were analyzed. Grain number per spike (GNS) is one of the main components of wheat yield. Genetic dissection of their regulatory factors is essential to improve the yield potential. In present study, a recombinant inbred line population comprising 180 lines developed from the cross between a high GNS line W7268 and a cultivar Chuanyu12 was employed to identify quantitative trait loci (QTL) associated with GNS across six environments. Two major QTL, QGns.cib-2B.1 and QGns.cib-2D.1, were detected in at least four environments with the phenotypic variations of 12.99-27.07% and 8.50-13.79%, respectively. And significant interactions were observed between the two major QTL. In addition, QGns.cib-2B.1 is a QTL cluster for GNS, grain number per spikelet and fertile tiller number, and they were validated in different genetic backgrounds using Kompetitive Allele Specific PCR (KASP) markers. QGns.cib-2B.1 showed pleotropic effects on other yield-related traits including plant height, spike length, and spikelet number per spike, but did not significantly affect thousand grain weight which suggested that it might be potentially applicable in breeding program. Comparison analysis suggested that QGns.cib-2B.1 might be a novel QTL. Furthermore, haplotype analysis of QGns.cib-2B.1 indicated that it is a hot spot of artificial selection during wheat improvement. Based on the expression patterns, gene annotation, orthologs analysis and sequence variations, the candidate genes of QGns.cib-2B.1 were predicted. Collectively, the major QTL and KASP markers reported here provided a wealth of information for the genetic basis of GNS and grain yield improvement.
穗粒数的主效 QTL 被定位在 2B 和 2D 染色体上。分析了 QGns.cib-2B.1 的单倍型和候选基因。穗粒数(GNS)是小麦产量的主要组成部分之一。解析其调控因子的遗传结构对于提高产量潜力至关重要。本研究利用 W7268 与川育 12 杂交衍生的包含 180 个重组自交系的群体,在 6 个环境下鉴定与 GNS 相关的数量性状位点(QTL)。在至少 4 个环境中检测到 2 个主效 QTL,QGns.cib-2B.1 和 QGns.cib-2D.1,表型变异分别为 12.99-27.07%和 8.50-13.79%。并且在两个主效 QTL 之间观察到显著的互作。此外,QGns.cib-2B.1 是一个与 GNS、小穗粒数和有效分蘖数相关的 QTL 簇,在不同遗传背景下利用 Kompetitive Allele Specific PCR(KASP)标记进行了验证。QGns.cib-2B.1 对其他与产量相关的性状表现出多效性,包括株高、穗长和每穗小穗数,但对千粒重没有显著影响,这表明它可能在育种计划中具有潜在的应用价值。比较分析表明,QGns.cib-2B.1 可能是一个新的 QTL。此外,QGns.cib-2B.1 的单倍型分析表明,它是小麦改良过程中人工选择的热点。基于表达模式、基因注释、直系同源分析和序列变异,预测了 QGns.cib-2B.1 的候选基因。总的来说,本研究报道的主效 QTL 和 KASP 标记为 GNS 和粒重提高的遗传基础提供了丰富的信息。
