A A Galimova, A R Kuluev, K R Ismagilov, B R Kuluev
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引用次数: 1
Abstract
High-molecular-weight glutenins play an important role in providing high baking qualities of bread wheat grain. However, breeding bread wheat for this trait is very laborious and, therefore, the genotyping of variety samples according to the allelic composition of high-molecular-weight glutenin genes is of great interest. The aim of the study was to determine the composition of high-molecular-weight glutenin subunits based on the identification of the allelic composition of the Glu-1 genes, as well as to identify the frequency of the Glu-1 alleles in bread wheat cultivars that are in breeding work under the conditions of the Pre-Ural steppe zone (PSZ). We analyzed 26 winter and 22 spring bread wheat varieties from the PSZ and 27 winter and 20 spring varieties from the VIR collection. Genotyping at the Glu-A1 locus showed that the Ax1 subunits are most common in winter varieties, while the predominance of the Ax2* subunits was typical of spring varieties and lines. In the Glu-B1 locus, the predominance of alleles associated with the production of the Bx7 and By9 subunits was revealed for both winter and spring varieties. In the case of the Glu-D1 gene, for all the wheat groups studied, the composition of the Dx5+Dy10 subunits was the most common: in 92.3 % of winter and 68.2 % of spring PSZ accessions and in 80 % of winter and 55 % of spring VIR accessions. The analysis of genotypes showed the presence of 13 different allelic combinations of the Glu-A1, Glu-B1, Glu-D1 genes in the PSZ varieties, and 19 combinations in the VIR varieties. The b b/al/с d allelic combination (Ax2* Вх7+Ву8/8*/9 Dx5+Dy10) turned out to be the most common for the PSZ spring varieties and lines, while for the PSZ winter accessions it was a с d (Ax1 Вх7+By9 Dx5+Dy10); the b с a and b с d genotypes (Ax2* Вх7+Ву9 Dx2+Dy12 and Ax2* Вх7+Ву9 Dx5+Dy10, respectively) occur with equal frequency among the VIR spring accessions; in the group of VIR winter varieties, the combination of the a b/ al d alleles (Ax1 Вх7+Ву8/8* Dx5+Dy10) prevails. The most preferred combination of alleles for baking qualities was found in the spring variety 'Ekaterina' and winter varieties 'Tarasovskaya 97', 'Volzhskaya S3', as well as in lines k-58164, L43510, L43709, L-67, L-83, which are recommended for further breeding programs to improve and preserve baking qualities in the conditions of the Pre-Ural steppe zone.
高分子量谷蛋白在面包小麦的高烘焙品质中起着重要作用。然而,面包小麦的这一性状的选育是非常费力的,因此,根据高分子量谷蛋白基因的等位基因组成对品种样品进行基因分型是很有意义的。本研究的目的是通过对Glu-1基因等位基因组成的鉴定,确定高分子量谷蛋白亚基的组成,并鉴定在乌拉尔前草原区(PSZ)条件下育种工作的面包小麦品种Glu-1等位基因的频率。我们分析了来自PSZ的26个冬小麦品种和22个春小麦品种,以及来自VIR的27个冬小麦品种和20个春小麦品种。在Glu-A1位点的基因分型结果显示,冬季品种中Ax1亚基最为常见,而春季品种和品系中Ax2*亚基占优势。在Glu-B1位点上,与Bx7和By9亚基产生相关的等位基因在冬春品种中均占优势。就Glu-D1基因而言,在所研究的所有小麦群体中,Dx5+Dy10亚基的组成最为常见:在92.3%的冬季和68.2%的春季PSZ群体中,在80%的冬季和55%的春季VIR群体中都是如此。基因型分析显示,PSZ品种中存在13个不同的Glu-A1、Glu-B1、Glu-D1等位基因组合,VIR品种中存在19个不同的等位基因组合。结果表明,春小麦品种和系中最常见的等位基因组合为b b/al/ r d (Ax2* Вх7+Ву8/8*/9 Dx5+Dy10),冬小麦品种和系中最常见的等位基因组合为b b/al/ r d (Ax1 Вх7+By9 Dx5+Dy10);b、a和b、d基因型(分别为Ax2* Вх7+Ву9 Dx2+Dy12和Ax2* Вх7+Ву9 Dx5+Dy10)在VIR春季材料中出现的频率相同;在VIR冬季品种组中,a b/ al d等位基因组合(Ax1 Вх7+Ву8/8* Dx5+Dy10)居多。在春季品种“Ekaterina”和冬季品种“Tarasovskaya 97”、“Volzhskaya S3”以及品系k-58164、L43510、L43709、L-67、L-83中发现了烘焙品质的最佳等位基因组合,这些等位基因可用于进一步的育种计划,以改善和保持乌拉尔前草原地区的烘焙品质。
期刊介绍:
The "Vavilov Journal of genetics and breeding" publishes original research and review articles in all key areas of modern plant, animal and human genetics, genomics, bioinformatics and biotechnology. One of the main objectives of the journal is integration of theoretical and applied research in the field of genetics. Special attention is paid to the most topical areas in modern genetics dealing with global concerns such as food security and human health.