俄罗斯石油作物研究所向日葵品种的遗传和表型多样性

Q3 Agricultural and Biological Sciences

Helia Pub Date : 2019-03-09 DOI:10.1515/HELIA-2018-0021

S. Goryunova, D. Goryunov, A. Chernova, E. Martynova, A. E. Dmitriev, S. Boldyrev, A. Ayupova, P. Mazin, E.A. Gurchenko, A. Pavlova, D. Petrova, Y. Chebanova, L. Gorlova, S. Garkusha, Z. Mukhina, E. Savenko, Y. Demurin

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引用次数: 3

摘要

摘要公开支持的栽培种质资源是作物改良新基因的重要来源之一。VNIIMK是俄罗斯联邦石油和精油作物育种和种子种植领域的领先组织，拥有超过一个世纪的历史。V.S.Pustovoit在VNIIMK创造的向日葵品种成为世界范围内现代向日葵品种发展的基础。在本研究中，根据VNIIMK收集的186个向日葵品系的基因型以及一般形态和表型的重要经济性状对其进行了表征。此外，还测定了99个向日葵品系的脂肪酸含量、种子含油量、种子外壳含量、100粒种子重量和头部种子数。RAD文库的测序和随后的分析已经鉴定了65553个变体，包括SNPs和indel。LD分析揭示了整个基因组的显著变异性。最长的LD块（>5000 Kb）在连锁组1、5和17中发现。该分析揭示了VNIIMK向日葵集合的显著遗传和表型多样性。在LGs 8、9和17上发现了与种子中亚麻酸含量的新的显著关联。

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Genetic and Phenotypic Diversity of the Sunflower Collection of the Pustovoit All-Russia Research Institute of Oil Crops (VNIIMK)

Abstract Publicly supported collections of cultivated germplasm are one of the key sources of new genes for crop improvement. VNIIMK is the leading organization in oil and essential oil crop breeding and seed growing in the Russian Federation with more than a century-long history. Sunflower varieties created by V.S. Pustovoit at VNIIMK became the basis for the development of the modern sunflower varieties worldwide. In the present study, 186 sunflower lines from the VNIIMK collection were characterized based on their genotype and general morphological and phenological economically-important traits. Additionally, for 99 sunflower lines fatty acid content, seed oil content, seed husk content, 100-seed weight, and seed number in the head were determined. Sequencing of RAD-libraries and the subsequent analysis have identified 65,553 variants including SNPs and indels. LD analysis revealed substantial variability across the genome. The longest LD blocks (>5,000 Kb) were found in the linkage groups 1, 5, and 17. The analysis revealed significant genetic and phenotypic diversity of the VNIIMK sunflower collection. Novel significant associations with linolenic acid content in the seeds were found on LGs 8, 9, and 17.

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来源期刊

Helia Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.00

自引率

0.00%

发文量