Abstract
The genetic relationship and population structure of two-rowed barley accessions from Kazakhstan were assessed using single-nucleotide polymorphism (SNP) markers. Two different approaches were employed in the analysis: (1) the accessions from Kazakhstan were compared with barley samples from six different regions around the world using 1955 polymorphic SNPs, and (2) 94 accessions collected from six breeding programs from Kazakhstan were studied using 5636 polymorphic SNPs using a 9K Illumina Infinium assay. In the first approach, the neighbor-joining tree showed that the majority of the accessions from Kazakhstan were grouped in a separate subcluster with a common ancestral node; there was a sister subcluster that comprised mainly barley samples that originated in Europe. The Pearson’s correlation analysis suggested that Kazakh accessions were genetically close to samples from Africa and Europe. In the second approach, the application of the STRUCTURE package using 5636 polymorphic SNPs suggested that Kazakh barley samples consisted of five subclusters in three major clusters. The principal coordinate analysis plot showed that, among six breeding origins in Kazakhstan, the Krasnovodopad (KV) and Karaganda (KA) samples were the most distant groups. The assessment of the pedigrees in the KV and KA samples showed that the hybridization schemes in these breeding stations heavily used accessions from Ethiopia and Ukraine, respectively. The comparative analysis of the KV and KA samples allowed us to identify 214 SNPs with opposite allele frequencies that were tightly linked to 60 genes/gene blocks associated with plant adaptation traits, such as the heading date and plant height. The identified SNP markers can be efficiently used in studies of barley adaptation and deployed in breeding projects to develop new competitive cultivars.
Highlights
Barley (Hordeum vulgare L.) was one of the first domesticated cereal crops, showing a dramatic adaptation to various climates and environmental conditions across a wide geographic range and being widely cultivated in all temperate regions
The genetic distribution of barley accessions that originated in six breeding programs of Kazakhstan was assessed using single-nucleotide polymorphism (SNP) genotyping and the neighbor-joining tree
The majority of the accessions from Kazakhstan were grouped into separate subclusters with a sister subcluster that mainly consisted of barley samples originating in Europe
Summary
Barley (Hordeum vulgare L.) was one of the first domesticated cereal crops, showing a dramatic adaptation to various climates and environmental conditions across a wide geographic range and being widely cultivated in all temperate regions. It ranks as the fourth most important cereal crop globally, after wheat, maize, and rice, in terms of planting areas and production and is mainly utilized for animal feed, brewing malts, and human food [1]. In Kazakhstan, the largest Central Asian country, barley is the second most important cereal commodity after wheat, with an average annual total grain yield of 2 million tons [2]. Barley is cultivated across a wide range of eco-geographical niches, and the country is one of the top barley exporters in the world [1]
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