Induced Mutagenesis for the Creation of New Starting Material in Sunflower Breeding

Q3 Agricultural and Biological Sciences

Helia Pub Date : 2019-03-27 DOI:10.1515/HELIA-2017-0024

V. Vasko, V. Kyrychenko

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引用次数: 3

Abstract

Abstract The article colligates data of studies on the variability of quantitative and qualitative traits in mutant sunflower M1-M3 generations affected by dimethyl sulfate (DMS) (0.01, 0.05 %) and gamma rays (120; 150 Gy), frequencies and range of mutations in M2 and their inheritance in mutant families, chromosome aberrations in meiosis, as well as on the breeding and genetic value of induced mutants and possibilities of their use in breeding. The methodical peculiarities of the mutational breeding of the cross-pollinating crop were defined, and new mutants with changed features were created. Investigating new homozygous self-pollinated sunflower lines, we observed a more negative mutagenic impact of gamma irradiation (120 and 150 Gy) on the germinability of M1 sunflower seeds in the field compared with the DMS effect (0.01 and 0.05 %). The field germinability of DMS-treated seeds was 83–87 % vs. 11–15 % of gamma-irradiated ones. The mutagenic effect of gamma rays (120 and 150 Gy) on M1 meiosis was shown to be stronger than that of DMS (0.01 and 0.05 %). The percentage of cells with alterations varied within 15.79–18.78 % (120 Gy) and 20.38–25.26 % (150 Gy) compared to 0–0.16 % in the control. The effect of gamma rays on the frequency of morphoses in M1 was stronger, in particular, after exposure to 120 Gy or 150 Gy of gamma irradiation, the number of plants with alterations was 43 %, whereas after DMS treatment (0.01 and 0.05 %) this parameter averaged 27–28 %. We determined the inheritance of mutations of quantitative and qualitative traits, which are important for breeding, in mutant M2 families and selected mutant families with inherited altered traits that can be considered as mutations. Among the best mutations, there are morphological mutants with marker traits, mutants with increased content of oil in seeds, increased 1000-seed weight, increased contents of behenic, linoleic and palmitoleic acids as well as with absolute resistance to downy mildew.

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诱导诱变创造向日葵育种新材料

摘要本文综合了硫酸二甲酯（DMS）对突变体向日葵M1-M3代数量性状和质量性状变异性的研究数据（0.01，0.05） %) 和伽马射线（120；150 Gy），M2突变的频率和范围及其在突变体家族中的遗传，减数分裂中的染色体畸变，以及诱导突变体的育种和遗传价值及其在育种中使用的可能性。定义了异花授粉作物突变育种的系统特征，并创造了具有变化特征的新突变体。在研究新的纯合自花授粉向日葵品系时，我们观察到伽马辐射（120和150 Gy）对田间M1向日葵种子发芽率的影响与DMS效应的比较（0.01和0.05 %). DMS处理种子的田间发芽率为83–87 % 对比11-15 % γ辐射的。伽马射线（120和150 Gy）对M1减数分裂的影响强于DMS（0.01和0.05） %). 有改变的细胞百分比在15.79–18.78之间变化 % （120 Gy）和20.38–25.26 % （150 Gy），而0–0.16 % 在控件中。伽马射线对M1形态发生频率的影响更强，尤其是在暴露于120 Gy或150 γ辐射的Gy，发生变化的植物数量为43 %, 而DMS治疗后（0.01和0.05 %) 该参数的平均值为27-28 %. 我们确定了数量和质量性状突变的遗传性，这对育种很重要，在突变体M2家族和选定的具有遗传性改变性状的突变体家族中，这些性状可以被视为突变。在最好的突变中，有具有标记性状的形态突变体，具有种子含油量增加、1000粒种子重量增加、山嵛酸、亚油酸和棕榈油酸含量增加以及对霜霉病具有绝对抗性的突变体。

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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