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Документ Modernization of the Pseudomonas syringae pathovars serogrouping scheme(2022) Pasichnyk, Lidiia; Butsenko, LiudmylaIn 1979, L.T. Pastushenko and I.D. Symonovych developed a scheme of serogrouping phytopathogenic bacteria of the Pseudomonas genus, which is still used now. However, today's using this serogrouping scheme is complicated by the lack of all data accumulated over the years of its application. Moreover, the scheme does not correspond to the modern taxonomy of phytopathogenic bacteria of the Pseudomonas genus. Aim. On the basis of own experimental results and data of scientific literature, to carry out modernization of the serogrouping scheme of phytopathogenic bacteria of the Pseudomonas genus. Methods. The strains of Pseudomonas syringae pathovars such as atrofaciens, coronafaciens, tabaci, which were isolated from plants of wheat, rye, oats, tobacco, and various species of affected weeds in different regions of Ukraine have been studied in the work. Antigenic properties of bacterial strains were studied by agglutination and precipitation reactions (the Ouchterlony double immunodiffusion techniques) using antisera to P. syringae strains of nine serological groups (I, II, III, IV, V, VI, VII, VIII, IX). To carry out the precipitation reaction, O- and OH-antigens were obtained by a modified Grasse's method. The presence of the same number of precipitation lines of the studied antigens as the number of lines with homologous antiserum of the corresponding serogroup testified to their belonging to this serogroup according to the known serogrouping scheme of phytopathogenic bacteria developed in 1979 by L.T. Pastushenko and I.D. Symonovych. Results. It has been proved that strains of P. syringae pathovars isolated from different cereals (rye, wheat, oats) and segetal vegetation differ in antigenic composition. The antigenic composition of P. syringae strains depends on the host plant from which the pathogen was isolated. Strains of the causative agent of basal glume rot P. syringae pv. atrofaciens isolated from wheat belong to four serological groups (II, IV, V, VI), from rye - to five serological groups (I, II, IV, V, VI), as well as strains of this pathogen isolated from segetal vegetation of wheat agrophytocenosis. Strains of the halo bligth P. syringae pv. coronafaciens from affected oat plants belong to two serological groups (I, V). The serogrouping scheme has been supplemented by new data on the antigenic properties of P. syringae pv. tomato, the causative agent of the bacterial speck disease of tomatoes (Solanum lycopersicum), which is classified as serogroup IV. It has been found that P. syringae pv. tabaci strains, which cause wildfire of tobacco, are part of three serogroups - VII, VIII, IX, and not of two ones, as was presented in the known scheme (1979). Conclusions. Therefore, on the basis of our own research and literature data, the serogrouping scheme of phytopathogenic bacteria of the Pseudomonas genus developed by L.T. Pastushenko and I.D. Symonovych has been modernized. In the renovated scheme, current species' names of phytopathogens are present, this scheme introduces new information about the serogroups of P. syringae pv. atrofaciens isolated from rye seeds and plants, weeds, P. syringae pv. coronafaciens - from oat plants, P. syringae pv. tabaci - from tobacco, and P. syringae pv. tomato - from affected tomato plants.Документ The effect of pesticides on the tomato bacterial speck disease pathogen Pseudomonas syringae pv. Tomato(2020) Butsenko, Liudmyla; Pasichnyk, Lidiia; Kolomiiets, Yuliia; Kalinichenko, AntoninaA significant part of the used pesticides does not reach the target organisms and, while remaining in the agrophytocenosis, influences all living organisms in it. Having a toxic and often mutagenic effect, pesticides induce morphological and physiological changes in the cells of microorganisms and are the cause of phenotypic heterogeneity of their populations. However, theeffectofpesticidesonphytopathogenicbacteriaasnon-targetmicroorganismsremainsoutofthefield of view for most researchers. However, the use of pesticides can lead to expansion of the diversity of existing phytopathogens and, as a consequence, complications of identification of the pathogens, loss of resistance by plants varieties, and increased harm from diseases caused by them. This study is focused on the effect of pesticides used in tomato plantations on the causative agent of bacterial speck of this crop—Pseudomonas syringae pv. tomato. The studies were carried out using the methods of classical microbiology. The mutagenic action of pesticides was recorded, taking into account the increase of the number of streptomycin resistance mutations in bacteria in the case of pesticide action. It is established that the fungicide aluminium phosethyl is characterised by a bacteriostatic effect on P. syringae pv. tomato. Deltamethrin insecticide does not affect the growth of P. syringae pv. tomato. However, there is an increase in the frequency of streptomycin resistance mutations in both studied strains of P. syringae pv. tomato after using deltamethrin. It is shown that the frequency of occurrence of R (rough colonies) forms of P. syringae pv. tomato IZ28 and IZ46 after using deltamethrin increased by 100 times when in comparison to the frequency of spontaneous morphological dissociation, or smooth-to-rough (S-R) mutation, of these bacteria. Therefore, aluminium phosethyl is characterised by moderate bacteriostatic action against P.syringae pv. tomato. Deltamethrin does not influence the growthofthepathogenoftomatospeckbutincreasesthefrequencyofformationofStrR mutantsand R forms of phytopathogenic bacteria.