Associations between allelic differences of the fifth group chromosome loci and a complex of agronomically valuable traits in common wheat (Triticum aestivum L.)

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY

Agricultural Science and Practice Pub Date : 2024-02-28 DOI:10.15407/agrisp10.03.061

M. V. Halaieva, O. Pogrebniuk, O. V. Halaiev, V. Fait

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引用次数: 0

Abstract

Aim. Characterization of recombinant inbred wheat lines by agronomically relevant traits and detection of asso- ciations between their expression level and allelic differences of microsatellite loci of the fifth group chromosomes. Methods. Phenological observations, morphometric indicators, and elements of crop structure. Statistical analysis of the obtained data was carried out in Microsoft Excel. The significance of the difference between samples was assessed by Fisher’s F test. A difference of p < 0.05 was considered statistically significant for all indicators. Results. The poly- morphism of the parental genotypes and the population of 47 recombinant-inbred lines (RILs) F7 from the crossing of the winter wheat varieties Luzanivka odeska and Odeska chervonokolosa over three years (2016–2018) in conditions of the Southern Steppe (Odesa) was evaluated according to eight characteristics: duration of a period prior to heading, plant height, productive tillering, grain number per spike, grain weight per spike, thousand-grain weight, productive tiller number per unit area and grain yield. The comparison of the data of line evaluation by agronomic traits against the data of microsatellite analysis of lines by 14 microsatellite loci of the fifth group chromosomes demonstrated the associations between several loci and grain yield and between two loci and plant height. Conclusions. The changes in grain yield in the most unfavorable year, 2018, were associated with allelic differences of lines at locus Xbarc319- 5A, and in the most favorable year, 2017, – with another locus of chromosome 5A, Xbarc330-5A. In both cases, the lines that had an allele from Odeska chervonokolosa were characterized by a significantly higher level of grain yield compared to the lines that had an allele from the Luzanivka odeska variety. There are at least two QTLs on 5B chromo- some, associated with winter wheat grain yield in favorable growing years. The first of them is located in the region of locus Xbarc88-5B, and the second – in the region of loci Xwmc415-5B, Xgpw3191-5B, and Xcfd7-5B. Based on the alleles of the specified microsatellite loci, which are linked QTLs of grain yield, it is possible to select genotypes at the early stages of selection that will give a higher yield in years with favorable conditions for growing wheat.

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普通小麦（Triticum aestivum L.）第五组染色体位点的等位基因差异与一系列具有农艺价值的性状之间的关系

目的通过农艺相关性状对重组小麦近交系进行表征，并检测其表达水平与第五组染色体微卫星位点等位基因差异之间的关系。方法：观察作物的物候、形态指标和结构要素。用 Microsoft Excel 对获得的数据进行统计分析。样本间差异的显著性采用 Fisher's F 检验。对于所有指标，P < 0.05 为差异具有统计学意义。结果在南方大草原（敖德萨）条件下，对亲本基因型和 47 个重组近交系（RIL）F7 群体的多态性进行了评估，这些重组近交系是由冬小麦品种 Luzanivka odeska 和 Odeska chervonokolosa 杂交而成，历时三年（2016-2018 年），涉及 8 个特征点：打顶前持续期、株高、丰产分蘖、每穗粒数、每穗粒重、千粒重、单位面积丰产分蘖数和谷物产量。根据农艺性状对品系进行评价的数据与根据第五组染色体的 14 个微卫星位点对品系进行微卫星分析的数据进行比较，结果表明几个位点与谷物产量之间存在关联，两个位点与株高之间存在关联。结论在最不利的年份 2018 年，谷物产量的变化与 Xbarc319-5A 位点上各品系的等位基因差异有关；在最有利的年份 2017 年，谷物产量的变化与 5A 染色体的另一个位点 Xbarc330-5A 有关。在这两种情况下，具有 Odeska chervonokolosa 等位基因的品系与具有 Luzanivka odeska 品种等位基因的品系相比，谷物产量水平明显更高。5B 染色体上至少有两个 QTL 与冬小麦在有利生长年份的谷物产量有关。第一个位于 Xbarc88-5B 基因座区域，第二个位于 Xwmc415-5B、Xgpw3191-5B 和 Xcfd7-5B 基因座区域。根据特定微卫星位点的等位基因（这些位点是谷物产量的连锁 QTL），可以在选择的早期阶段选出在小麦生长条件有利的年份产量较高的基因型。

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Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-

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