Callus formation ability in cultivated peanuts (Arachis hypogaea L.)

Q3 Agricultural and Biological Sciences Plant breeding and biotechnology Pub Date : 2022-12-15 DOI:10.30901/2658-6266-2022-3-o4
V. D. Bemova, L. G. Makarova, E. O. Gurina, V. Gavrilova, T. Matveeva
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Abstract

Background: Russia is one of the largest peanut importing countries. At the same time, in the south of the country, several zones meet the requirements for peanut cultivation. It is possible to increase the yield of the existing peanut varieties by using modern biotechnology methods, in particular agrobacterial transformation. It is known from the literature data that different peanut genotypes and explants from various sources react differently to in vitro regeneration. Successful regeneration depends on the correct protocol, including both the type of regeneration and the composition of media promoting growth and in vitro induction.Objectives: a technique for obtaining peanut regenerants in in vitro culture.Materials and methods: Eight peanut accessions from the VIR collection of different origin were used in the work. Embryonic explants were grown on Murashige-Skoog medium supplemented with the hormone 2,4-dichlorophenoxyacetic acid (2,4-D).Results and conclusions: As a result of assessing the regenerative ability of peanuts grown on Murashige-Skoog medium with the hormone 2,4-D at a concentration of 2 g/L, differences in the callus formation ability were revealed in different accessions. Those with catalog numbers k-793, k-2054 and k-2055 did not form organogenic calli, while accessions k-698 and k-1987 showed the highest percentage of callus formation from embryonic explants.
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栽培花生愈伤组织形成能力的研究
背景:俄罗斯是最大的花生进口国之一。与此同时,在该国南部,有几个地区符合花生种植的要求。利用现代生物技术方法,特别是农杆菌转化,可以提高现有花生品种的产量。从文献资料可知,不同花生基因型和不同来源的外植体对离体再生的反应不同。成功的再生取决于正确的方案,包括再生的类型和促进生长和体外诱导的培养基组成。目的:建立花生再生体离体培养技术。材料与方法:选用来自VIR不同来源的8份花生材料。胚胎外植体在添加激素2,4-二氯苯氧乙酸(2,4- d)的Murashige-Skoog培养基上生长。结果与结论:通过对花生在浓度为2 g/L的激素2,4- d的Murashige-Skoog培养基上生长的再生能力进行评价,发现不同品种的愈伤组织形成能力存在差异。目录号k-793、k-2054和k-2055的愈伤组织不形成器官源性愈伤组织,而k-698和k-1987的愈伤组织形成率最高。
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来源期刊
Plant breeding and biotechnology
Plant breeding and biotechnology Agricultural and Biological Sciences-Plant Science
CiteScore
2.30
自引率
0.00%
发文量
18
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