Molecular selection of soybean towards adaptation to Central European agroclimatic conditions.

IF 2 3区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of Applied Genetics Pub Date : 2024-07-02 DOI:10.1007/s13353-024-00889-6
Sandra Rychel-Bielska, Michał Książkiewicz, Danuta Kurasiak-Popowska, Agnieszka Tomkowiak, Wojciech Bielski, Dorota Weigt, Janetta Niemann, Anna Surma, Bartosz Kozak, Jerzy Nawracała
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Abstract

Europe is highly dependent on soybean meal imports and anticipates an increase of domestic plant protein production. Ongoing climate change resulted in northward shift of plant hardiness zones, enabling spring-sowing of freezing-sensitive crops, including soybean. However, it requires efficient reselection of germplasm adapted to relatively short growing season and long-day photoperiod. In the present study, a PCR array has been implemented, targeting early maturity (E1-E4, E7, E9, and E10), pod shattering (qPHD1), and growth determination (Dt1) genes. This array was optimized for routine screening of soybean diversity panel (204 accessions), subjected to the 2018-2020 survey of phenology, morphology, and yield-related traits in a potential cultivation region in Poland. High broad-sense heritability (0.84-0.88) was observed for plant height, thousand grain weight, maturity date, and the first pod height. Significant positive correlations were identified between the number of seeds and pods per plant, between these two traits and seed yield per plant as well as between flowering, maturity, plant height, and first pod height. PCR array genotyping revealed high genetic diversity, yielding 98 allelic combinations. The most remarkable correlations were identified between flowering and E7 or E1, between maturity and E4 or E7 and between plant height and Dt1 or E4. The study demonstrated high applicability of this PCR array for molecular selection of soybean towards adaptation to Central Europe, designating recessive qPHD1 and dominant Dt1, E3, and E4 alleles as major targets to align soybean growth season requirements with the length of the frost-free period, improve plant performance, and increase yield.

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对大豆进行分子筛选,以适应中欧农业气候条件。
欧洲高度依赖豆粕进口,预计将增加国内植物蛋白产量。持续的气候变化导致植物耐寒区北移,使包括大豆在内的对冷冻敏感的作物能够在春季播种。然而,这需要有效地重新选择适应相对较短生长期和长日照光周期的种质。在本研究中,针对早熟(E1-E4、E7、E9 和 E10)、豆荚破碎(qPHD1)和生长决定(Dt1)基因实施了 PCR 阵列。该阵列经过优化,可用于对大豆多样性面板(204 个加入品系)进行常规筛选,该面板接受了波兰潜在种植地区 2018-2020 年物候学、形态学和产量相关性状调查。在株高、千粒重、成熟期和第一荚高度方面观察到了较高的广义遗传率(0.84-0.88)。在每株种子数和豆荚数之间、这两个性状与每株种子产量之间以及开花期、成熟期、株高和第一荚高之间发现了显著的正相关。PCR 阵列基因分型显示了高度的遗传多样性,产生了 98 个等位基因组合。在开花与 E7 或 E1、成熟与 E4 或 E7 以及株高与 Dt1 或 E4 之间发现了最显著的相关性。研究表明,该 PCR 阵列非常适用于大豆适应中欧地区的分子选育,指定隐性 qPHD1 和显性 Dt1、E3 和 E4 等位基因为主要目标,使大豆的生长季节要求与无霜期长度相一致,改善植株表现并提高产量。
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来源期刊
Journal of Applied Genetics
Journal of Applied Genetics 生物-生物工程与应用微生物
CiteScore
4.30
自引率
4.20%
发文量
62
审稿时长
6-12 weeks
期刊介绍: The Journal of Applied Genetics is an international journal on genetics and genomics. It publishes peer-reviewed original papers, short communications (including case reports) and review articles focused on the research of applicative aspects of plant, human, animal and microbial genetics and genomics.
期刊最新文献
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