Patterns of nucleotide diversity for different domains of centromeric histone H3 (CENH3) gene in Secale L.

Abstract

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Rye (Secale) is among staple cereals along with other members of the Triticeae tribe: wheat and barley. The genus Secale includes perennial and annual, cross-pollinating and self-pollinating species, and they can be donors of valuable genes in wheat and rye breeding programs. Studies of the structure of the gene for centromeric histone H3 (CENH3), essential for centromere functions, are relevant to the breeding of agronomically important crops. We have investigated the nucleotide diversity of sequences of two variants of the rye CENH3 gene inside the N-terminal tail (NTT) and the conservative HFD (histone fold domain) domain in the genus Secale. The mean values of nucleotide diversity in the NTT and HFD of wild cross- and self-pollinating taxa are close in αCENH3: πtot = 0.0176–0.0090 and 0.0136–0. 0052, respectively. In the case of βCENH3, the mean values for NTT (πtot = 0.0168–0.0062) are lower than for HFD (πtot = 0.0259–0.084). The estimates of nucleotide and haplotype diversity per site for the CENH3 domains are considerably lower in taxa with narrow geographic ranges: S. cereale subsp. dighoricum and S. strictum subsp. kuprijanovii. Commercial breeding reduces the nucleotide sequence variability in αCENH3 and βCENH3. Cultivated rye varieties have π values within 0.0122–0.0014. The nucleotide and haplotype diversity values in αCENH3 and βCENH3 are close in S. sylvestre, which is believed to be the oldest rye species. The results of this study prove that the frequency of single nucleotide polymorphisms and nucleotide diversity of sequences in genes for CENH3 in Secale species are influenced by numerous factors, including reproduction habits, the geographic isolation of taxa, breeding, and the evolutionary age of species.

Keywords

• secale l.
• centromeric histone cenh3
• nucleotide diversity
• single nucleotide polymorphism