Microscopic studies of the phytoplasma infection effect on the symbiotic system Medicago sativa – Rhizobium meliloti in simulated conditions

K. S. Korobkova, T. V. Zatovska, M. Kharchuk
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Abstract

Aim. Aim of the study was to microscopically investigate the interaction of Acholeplasma laidlawii var. granulum 118 with the target plant Medicago sativa, as well as to determine the role of Rhizobium meliloti strains with natural and defective polysaccharides in the plant’s resistance occurrence. Methods. Cultivation of plants and their inoculation with bacteria was performed under conditions of microvegetation experiment. The study of the ultrastructure of alfalfa roots and nodules was carried out with both light and electron microscopy. Results. The rhizobial mutant strain, defective in the synthesis of lipopolysaccharides, more often formed atypical nodules on M. sativa, which aged faster. In the variant with double inoculation of alfalfa with rhizobia together with acholeplasma changes in the morphology of the lateral roots of plants, as well as deformation of the nodules were observed. Conclusions. Results of this study indicate not only the ability of phytoplasmas to penetrate the root system and migrate to plant aboveground organs, but also demonstrate the possibility of their presence in the nodules formed by rhizobia. Keywords: Mollicutes, acholeplasma, rhizobia, mutant, lipopolysaccharides.
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模拟条件下植物原体侵染对紫花苜蓿-根瘤菌共生系统影响的显微研究
的目标。本研究的目的是在显微镜下研究甜菜根霉var. granulum 118与靶植物紫花苜蓿(Medicago sativa)的相互作用,并确定天然多糖和缺陷多糖的meliloti根瘤菌菌株在植物抗性发生中的作用。方法。在微植被试验条件下进行了植物的培养和细菌接种。采用光镜和电镜对紫花苜蓿根和根瘤的超微结构进行了研究。结果。根瘤菌突变株在脂多糖合成方面存在缺陷,在苜蓿上形成非典型根瘤的几率更高,且根瘤菌的衰老速度更快。在苜蓿根瘤菌双重接种的变异株中,观察到植株侧根形态的变化和根瘤的变形。结论。本研究结果表明,植物原体不仅能够穿透根系并迁移到植物的地上器官,而且还可能存在于根瘤菌形成的根瘤中。关键词:Mollicutes, chololplasma,根瘤菌,突变体,脂多糖
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