使用甲磺酸乙酯、亚硝基甲基脲和一种新的二甲基硫酸衍生物DG-2的大麦Nigella damascena L.在М2和M3代中的突变类型和频率

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY Agricultural Science and Practice Pub Date : 2023-04-20 DOI:10.15407/agrisp9.03.049
Yu. O. Gubanova
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引用次数: 0

摘要

目标用甲磺酸乙酯(EMS)、亚硝甲基脲(NMU)和新的硫酸二甲酯衍生物DG-2处理奈杰尔拉(Nigella damascena L.)品种Bereginya和Charivnytsya(M2和M3代)的种子后,鉴定其突变并评估其突变频率。方法。用诱变剂处理两个cvs的Nigella种子6和16小时,EMS和NMU的浓度分别为0.01%和0.5%,DG-2的浓度分别是0.05%和0.5%。后果获得了广泛的突变(59种类型),分为六组:五组形态类型发生变化,一组生理类型发生变化。在检测到的突变中,既有先前已知的突变,也有首次在该培养物中获得的突变。影响叶绿素合成和茎、芽、叶结构的突变频率最高(30%),影响生理特征的突变频率为20%。然而,这种NMU浓度似乎对Charivnytsya变种是致命的。结论。新的诱变剂DG-2被证明是最有效的诱导nigela花冠花瓣颜色的突变,即在0.5%的诱变物和16hexposure浓度下,Bereginya为4.0,在相同浓度和暴露条件下,Charivnytsya为4.0%。DG-2在影响形态和生理性状的所有六个突变组中都引起了大量突变。在我们的研究中,分类诱变剂EMS在整个突变组中也是有效的;然而,它引起突变的频率较低。在0.05%浓度和暴露16h的EMC影响下,Bereginya和Charivnytsya的最大突变频率分别为11.0%和8.0%。对于所使用的所有三种诱变剂,活性物质浓度和暴露时间的增加导致N.damascena植物的突变频率增加。我们将选择具有经济价值性状的突变体,如高大、抗倒伏和早熟植株,以进一步开发用于工业栽培的大马士革N.damascena新品种。
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Mutation types and frequency in Nigella damascena L. in the М2 and M3 generation, using ethyl methanesulfonate, nitrosomethylurea and a new derivative of dimethylsulfate, DG-2
Aim. To identify mutations and evaluate the mutation frequency in Nigella damascena L. cultivars (cvs) Bereginya and Charivnytsya (M2 and M3 generation), following treatment of their seeds with ethyl methanesulfonate (EMS), nitrosomethylurea (NMU) and a new derivative of dimethyl sulfate, DG-2. Methods. Treated Nigella seeds of two cvs with the mutagens for 6 and 16 h and in concentrations of 0.01 and 0.5 % for EMS and NMU and 0.05 and 0.5 % for DG-2. Results. A wide range of mutations (59 types) was obtained, that was divided into six groups: five groups with changes in the morphological type and one group with changes in the physiological type. Among the detected mutations, there were both previously known mutations and those obtained in this culture for the first time. The high- est mutation frequency (30 %) affecting synthesis of chlorophyll and structure of stem, shoots and leaves and 20 % for physiological features, was registered for NMU at 16 h and 0.05 % in cv. Bereginya. However, this NMU concentra- tion appeared to be lethal for cv. Charivnytsya. Conclusions. The new mutagen DG-2 proved to be most effective for inducing mutations in the corolla petal color of nigella, namely 4.0 at a 0.5 % concentration of the mutagen and 16h exposure for cv. Bereginya and 4.0 % at the same concentration and exposure for cv. Charivnytsya. DG-2 caused a substantial number of mutations in all six mutation groups affecting morphological and physiological traits. The clas- sic mutagen EMS was also effective across the spectrum of mutation groups in our study; however, it caused mutations at a lower frequency. The maximum mutation frequency under influence of EMC at a concentration of 0.05 % and an exposure of 16 h in cv. Bereginya was 11.0 %, and in cv. Charivnytsya 8.0 %. For all three mutagens used, an increase in the concentration of the active substance and of exposure time led to an increase in the mutation frequency in N. damascena plants. We will select mutants with economically valuable traits, such as tall, lodging-resistant plants and early maturing ones, for further work on the development of new cultivars of N. damascena for industrial cultivation.
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Agricultural Science and Practice
Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-
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