Validation and genetic characterisation of a seed weight quantitative trait locus, qSW17.1, in progenies of cultivated and wild soybean

IF 1.8 4区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY
Dequan Liu, Cheolwoo Park, Qingyu Wang, Donghe Xu
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Abstract

Abstract Context. Seed weight is an important agronomic trait for determining yield and appearance quality of soybean (Glycine max (L.) Merr.). Understanding the genetic basis of seed weight might lead to improvement of these traits in soybean by optimising different genes or alleles controlling seed weight. Aims. A major quantitative trait locus (QTL) for seed weight, qSW17.1, was identified previously. In this study, we used progenies of cultivated soybean and wild soybean (Glycine soja Sieb. and Zucc.) for further validation and characterisation of qSW17.1. Methods. A BC4F2 population, a heterogeneous inbred family (HIF) population, and a pair of qSW17.1 near-isogenic lines (NILs) developed from progenies of a cross between cultivated soybean variety Jackson and wild soybean accession JWS156-1 were cultivated under field conditions. QTL analysis and candidate gene mining were conducted. Key results. A QTL corresponding to qSW17.1, which explained 19.84% and 31.71% of the total phenotypic variance in BC4F2 and HIF populations, respectively, was detected. The NIL with the cultivated soybean allele showed higher shoot biomass than the NIL with the wild soybean allele under hydroponic growth conditions, suggesting that the large-seed-size allele of qSW17.1 might be beneficial in soybean seedling establishment. qSW17.1 was delimited to a physical interval of 2515 kb on chromosome 17. Glyma.17G108500 showed a large (~3.27-fold) difference in expression between the two NILs, and was considered a candidate gene underlying qSW17.1. Implications. Our results provide valuable information regarding the genetic basis of seed weight control in soybean and its utilisation in soybean molecular breeding.
栽培大豆和野生大豆后代种子重量定量性状基因座qSW17.1的验证和遗传特征
抽象上下文。粒重是决定大豆产量和外观品质的重要农艺性状。了解种子重量的遗传基础可能会通过优化控制种子重量的不同基因或等位基因来改善大豆的这些性状。目标。先前鉴定了一个主要的种子重量数量性状基因座qSW17.1。在本研究中,我们使用栽培大豆和野生大豆(Glycine soja Sieb.和Zucc.)的后代来进一步验证和表征qSW17.1。方法。在田间条件下培养了BC4F2群体、异质自交系(HIF)群体和一对由栽培大豆品种Jackson和野生大豆品种JWS156-1杂交后代形成的qSW17.1近等基因系(NIL)。进行QTL分析和候选基因挖掘。关键成果。在BC4F2和HIF群体中,检测到对应于qSW17.1的QTL,其分别解释了19.84%和31.71%的总表型变异。在水培生长条件下,具有栽培大豆等位基因的NIL比具有野生大豆等位蛋白的NIL表现出更高的地上部生物量,这表明qSW17.1的大粒径等位基因可能有利于大豆幼苗的建立。qSW17.1在17号染色体上的物理间隔为2515kb。Glyma17G108500在两个NIL之间的表达差异很大(约3.27倍),被认为是qSW17.1的候选基因。含义。我们的研究结果为大豆种子重量控制的遗传基础及其在大豆分子育种中的应用提供了有价值的信息。
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来源期刊
Crop & Pasture Science
Crop & Pasture Science AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
4.20
自引率
15.80%
发文量
111
审稿时长
3 months
期刊介绍: Crop and Pasture Science (formerly known as Australian Journal of Agricultural Research) is an international journal publishing outcomes of strategic research in crop and pasture sciences and the sustainability of farming systems. The primary focus is broad-scale cereals, grain legumes, oilseeds and pastures. Articles are encouraged that advance understanding in plant-based agricultural systems through the use of well-defined and original aims designed to test a hypothesis, innovative and rigorous experimental design, and strong interpretation. The journal embraces experimental approaches from molecular level to whole systems, and the research must present novel findings and progress the science of agriculture. Crop and Pasture Science is read by agricultural scientists and plant biologists, industry, administrators, policy-makers, and others with an interest in the challenges and opportunities facing world agricultural production. Crop and Pasture Science is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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