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Mishchenko Lidiya T. Konup Liudmila O. Dunich Alina A. Gorobets Vasyl F. Konup Anastasia I. Zaimenko Natalia V. Kozub Natalia O. Dashchenko Anna V. Chistyakova Violeta. L. Shcherbakova Tetiana O. Sovinska Roksolana S. 《植物病害和植物保护杂志》2023,130(1):189-198
Journal of Plant Diseases and Protection - In summer 2021, six varieties of peony plants exhibiting severe leaf rolling and deformation, as well as severe plant dwarfism and mosaics were observed... 相似文献
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T. A. Pshenichnikova A. V. Simonov M. F. Ermakova A. K. Chistyakova L. V. Shchukina E. V. Morozova 《Euphytica》2010,175(3):315-322
The endosperm structure of the wheat kernel determines its end-use quality. The known diversity in endosperm structure is
related to the Pina-D1 and Pinb-D1 genes comprising the Ha locus on chromosome 5DS. We studied the effect of a gene introduced into bread wheat from the diploid relative, Aegilops speltoides, a putative donor of the B genome. Grain hardness and vitreousness were investigated in lines with homoeologous introgressions
into chromosome 5A of spring wheat cultivar ‘Rodina’. One introgression changed the endosperm texture from hard to soft and
had the same effect when transferred to other wheat genotypes. This indicated that its action was analogous to the dominant
allele at the Ha locus. The temporary symbol Ha–Sp is given to the gene. Segregation for vitreousness in F3 offspring from monosomic hybrids was also investigated. Genetic variability for endosperm structure in wheat may be extended
by manipulating both hardness and vitreousness. Wheat germplasm with introgressions from wild relatives can increase the genetic
variability of milling characteristics. 相似文献
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