Identification and characterization of QSFS.sau-MC-5A for sterile florets genetically independent of fertile ones per spike in wheat.

IF 4.4 1区 农林科学 Q1 AGRONOMY Theoretical and Applied Genetics Pub Date : 2024-09-25 DOI:10.1007/s00122-024-04745-3
Jieguang Zhou, Yuanjiang He, Wei Li, Bin Chen, Longxing Su, Yuxin Lan, Lei Yan, Ying Wang, Md Nahibuzzaman Lohani, Yanlin Liu, Huaping Tang, Qiang Xu, Qiantao Jiang, Guoyue Chen, Pengfei Qi, Yunfeng Jiang, Chunji Liu, Yong Ren, Youliang Zheng, Yuming Wei, Jian Ma
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引用次数: 0

Abstract

Key message: A major and stable QTL for sterile florets per spike and sterile florets per spikelet was identified, it was mapped within a 2.22-Mb interval on chromosome 5AL, and the locus was validated using two segregating populations with different genetic backgrounds. Both the number of fertile florets per spike (FFS) and the number of sterile florets per spike (SFS) significantly influence the final yield of wheat (Triticum aestivum L.), and a trade-off theoretically exists between them. To enhance crop yield, wheat breeders have historically concentrated on easily measurable traits such as FFS, spikelets per spike, and spike length. Other traits of agronomic importance, including SFS and sterile florets per spikelet (SFPs), have been largely overlooked. In the study, reported here, genetic bases of SFS and SFPs were investigated based on the assessment of a population of recombinant inbred lines (RILs) population. The RIL population was developed by crossing a spontaneous mutant with higher SFS (msf) with the cultivar Chuannong 16. A total of 10 quantitative trait loci (QTL) were identified, with QSFS.sau-MC-5A for SFS and QSFPs.sau-MC-5A for SFPs being the major and stable ones, and they were co-located on the long arm of chromosome 5A. The locus was located within a 2.22-Mb interval, and it was further validated in two additional populations based on a tightly linked Kompetitive Allele-Specific PCR (KASP) marker, K_sau_5A_691403852. Expression differences and promoter sequence variations were observed between the parents for both TraesCS5A03G1247300 and TraesCS5A03G1250300. The locus of QSFS.sau-MC-5A/QSFPs.sau-MC-5A showed a significantly positive correlation with spike length, florets in the middle spikelet, and total florets per spike, but it showed no correlation with either kernel number per spike (KNS) or kernel weight per spike. Appropriate nitrogen fertilizer application led to reduced SFS and increased KNS, supporting results from previous reports on the positive effect of nitrogen fertilizer on wheat spike and floret development. Based on these results, we propose a promising approach for breeding wheat cultivars with multiple fertile florets per spike, which could increase the number of kernels per spike and potentially improve yield. Collectively, these findings will facilitate further fine mapping of QSFS.sau-MC-5A/QSFPs.sau-MC-5A and be instrumental in strategies to increase KNS, thereby enhancing wheat yield.

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鉴定 QSFS.sau-MC-5A 并确定其特征,以确定小麦每穗不育小花的基因是否独立于可育小花。
关键信息鉴定了每穗不育小花数和每穗不育小花数的一个主要且稳定的 QTL,该 QTL 映射在 5AL 染色体上的 2.22-Mb 区间内,并利用两个不同遗传背景的分离群体对该位点进行了验证。每穗可育小花数(FFS)和每穗不育小花数(SFS)对小麦(Triticum aestivum L.)的最终产量都有显著影响,理论上两者之间存在权衡。为了提高作物产量,小麦育种者历来专注于容易测量的性状,如每穗不育小花数、每穗小穗数和穗长。其他具有农艺重要性的性状,包括每穗不育小花数(SFS)和每穗不育小花数(SFP),在很大程度上被忽视了。本文报告的研究基于对重组近交系(RILs)群体的评估,调查了 SFS 和 SFPs 的遗传基础。该重组近交系群体是由具有较高SFS的自发突变体(msf)与栽培品种川农16号杂交培育而成的。共鉴定出10个数量性状位点(QTL),其中SFS的QSFS.sau-MC-5A和SFP的QSFPs.sau-MC-5A是主要且稳定的QTL,它们共同位于5A染色体的长臂上。该基因座位于一个 2.22-Mb 的区间内,并在另外两个种群中根据一个紧密相连的 Kompetitive Allele-Specific PCR(KASP)标记 K_sau_5A_691403852 进一步验证了该基因座。在 TraesCS5A03G1247300 和 TraesCS5A03G1250300 的亲本之间观察到了表达差异和启动子序列变异。QSFS.sau-MC-5A/QSFPs.sau-MC-5A基因座与穗长、中间小花和每穗总小花呈显著正相关,但与每穗仁数(KNS)和每穗仁重均无相关。适当施用氮肥会导致 SFS 减少和 KNS 增加,这与之前关于氮肥对小麦穗和小花发育有积极影响的报道结果相吻合。基于这些结果,我们提出了一种很有前景的方法,用于培育每穗有多个可育小花的小麦栽培品种,这可以增加每穗的籽粒数,并有可能提高产量。总之,这些发现将有助于进一步绘制 QSFS.sau-MC-5A/QSFPs.sau-MC-5A 的精细图谱,并有助于制定增加 KNS 的策略,从而提高小麦产量。
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来源期刊
CiteScore
9.60
自引率
7.40%
发文量
241
审稿时长
2.3 months
期刊介绍: Theoretical and Applied Genetics publishes original research and review articles in all key areas of modern plant genetics, plant genomics and plant biotechnology. All work needs to have a clear genetic component and significant impact on plant breeding. Theoretical considerations are only accepted in combination with new experimental data and/or if they indicate a relevant application in plant genetics or breeding. Emphasizing the practical, the journal focuses on research into leading crop plants and articles presenting innovative approaches.
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