Abstract
To increase the efficiency in agricultural plant breeding, including clary sage – one of the main essential oil crops grown in Russia, it is necessary to use biotechnological methods. One of these techniques is based on the induction of somaclonal variability in the callus tissue culture. To develop it, it is necessary to optimize the conditions for obtaining plant-regenerants in vitro and their analysis. The aim of this work was to study the features of morphogenesis and regeneration of plants from callus cultures to develop cell technologies for creating an initial breeding material based on somaclonal variability in Salvia sclarea L. In the course of the research, we found that the optimal explants for obtaining morphogenic callus, from which shoots were regenerated, were segments of buds and stems with a node (isolated from seedlings in vitro). Cytological analysis of callus cultures revealed two types of morphogenesis – organogenesis (gemmogenesis) and somatic embryogenesis. The features of the morphogenic callus formation of six sage cultivars and samples during the long-term cultivation were studied. The maximum frequency of morphogenesis was noted in the 2nd passage (from 32.4 to 85.2 %, depending on the genotype). Then, to the 8–10th passage, this indicator decreased to 0.0–3.9 %.‘S-785’ and ‘Taigan’ cultivars showed the highest morphogenesis frequency (81.5–85.2 %) and duration of callus regeneration potential (up to the 10th passage). The analysis of callus cultures of six donor plants of ‘S-785’ cultivar helped us to reveal their heterogeneity in morphogenesis induction ability. The maximum frequency of morphogenic callus formation (76.3–91.5 % in the 2nd passage) and the duration of the morphogenic potential preservation (up to the 12th passage) were observed in plants No. 3 and 9, whereas in No. 2, regeneration with a frequency of 3.6–9.7 % was observed only during three passages. Analysis of plants obtained from calli showed their variability in morphology – up to 12.5 % of the samples had deviations compared to the initial cultivar ‘S-785’ in leaf shape, inflorescence structure, flower color, etc. Somaclonal changes in morphological and economically useful traits revealed in regenerants indicate that they are promising for use in sage breeding.
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