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Документ Application of surface-active substances produced by Rhodococcus erythropolis IMB Aс-5017 for post-harvest treatment of sweet cherry(2022) Pirog, Tatiana; Stabnikov, Victor; Antoniuk, SvitlanaIntroduction. The aim of the present study was testing of the supernatant of Rhodococcus erythropolis ІМВ Ас-5017 with different concentration of surface-active substances (SAS) for treatment of sweet cherry for shelf-life extension. Materials and methods. R. erythropolis ІМВ Ас-5017 were grown in the medium with ethanol. Supernatant with concentration of SAS from 0.1 to 0.5 g/L was used for the treatment of sweet cherry fruit. Concentration of SAS in supernatant was determined by weight method. The total number of heterotrophic bacteria and fungi were determined by the plate dilution method. Results and discussion. The treatment of sweet cherries with a supernatant containing 0.5 g/L SAS diminished the numbers of bacteria and fungi on the fruit’s surface by 10 and 5 times, respectively, in comparison with cherries washed with water. The treatment of sweet cherries with supernatant containing 0.2 g/L SAS diminished the numbers of bacteria and fungi on the fruit’s surface by 5 and 3 times, respectively; treatment with supernatant containing 0.1 g/L diminished the numbers of bacteria and fungi by 2 times in comparison with cherries washed with water. The treatment with supernatant with concentration SAS 0.5 g/L was most effective. Treated with supernatant sweet cherries fruits did not show signs of decay even on 7th day of storage, while untreated or washed with water fruits lost moisture, fruit’s skin became wrinkled, cracks and decayed areas appeared on it. Content of fungal cells on the surface of sweet cherry pretreated with supernatant with concentration of SAS from 0.1 to 0.5 g/L and after that contaminated with spore’s suspension of Aspergillus niger Р-3 were by 2 – 11 times lower than on the surface of fruits washed with water after 5 days of incubation. The possibility of multiple usage of supernatant was shown. Application of supernatant with concentration of 0.5 g/L resulted in decrease of bacterial concentration after first usage by 10 times, after second usage it was diminished by 5 times and after third usage it was diminished by 3 times, meanwhile concentration of fungi decreased by 9, 5 and 4 times after I, II, and III usage of supernatant. Conclusion. Surface-active substances synthesized by Rhodococcus erythropolis IMB Ac-5017 could be used for treatment of sweet cherry to extend their shelf life.Документ Synthesis of gibberellins by surfactant producers Nocardia vaccinii IMV В-7405, Acinetobacter calcoaceticus IMV В-7241 and Rhodococcus erythropolis IMV Ас-5017(2020) Leonova, Natalia; Pirog, Tatiana; Piatetska, Daria; Shevchuk, Tetiana; Kharkhota, Maxym; Iutynska, GalynaIn this study, we established that the producers of surfactants Nocardia vaccinii IMV В-7405, Acinetobacter calcoaceticus IMV B-7241 and Rhodococcus erythropolis IMV Аc-5017 were able to synthesize phytohormones of gibberellic nature during cultivation on the traditional substrates (ethanol, hexadecane) and on the industrial waste sunflower oil and biodiesel production waste). The results of specific biotesting showed that the treatment of cucumber seedlings with phytohormonal extracts of all studied strains at 1:500 and 1:600 dilutions stimulated the extension of the cucumber hypocotyls as compared to the water control in values close to the treatment with gibberellic acid. The results of high-performance liquid chromatography showed N. vaccinii IMV B-7405, A. calcoaceticus IMV B-7241 and R. erythropolis IMV Аc-5017 produce highly active forms of gibberellins GA3 and GA4. The level of its synthesis was nearly the same (6.0-10.0 μg∙L-1) under cultivation of strains on every substrate. The exception was strain N. vaccinii IMV В-7405 which synthesized almost 47.0 μg∙L-1 GA3 and GA4 while is growing on the waste oil from meat frying. The obtained results are the groundwork for the development of an economically profitable technology for the recycling of toxic wastes using N. vaccinii IMV B-7405, A.calcoaceticus IMV B-7241 and R. erythropolis IMV Аc-5017. Such technology will allow us to develop complex microbial preparations with various biological properties in a single process. У цьому дослідженні встановлено, що продуценти ПАР Nocardia vaccinii ІМВ В-7405, Acinetobacter calcoaceticus ІМВ В-7241 та Rhodococcus erythropolis ІМВ Ас-5017 здатні синтезувати фітогормони гіберелової природи при культивуванні на традиційних субстратах (етанол, гексадекан) а також на промислових відходах соняшникової олії та відходах виробництва біодизеля). Результати специфічного біотестування показали, що обробка проростків огірка фітогормональними екстрактами всіх досліджуваних штамів у розведенні 1:500 та 1:600 стимулювала подовження гіпокотилів огірка порівняно з контролем у воді в значеннях, близьких до обробки гібереліновою кислотою. . Результати високоефективної рідинної хроматографії показали, що N. vaccinii IMV B-7405, A. calcoaceticus IMV B-7241 і R. erythropolis IMV Аc-5017 продукують високоактивні форми гіберелінів GA3 і GA4. Рівень його синтезу був приблизно однаковим (6,0-10,0 мкг∙л-1) за культивування штамів на кожному субстраті. Виняток становив штам N. vaccinii ІМВ В-7405, який синтезував майже 47,0 мкг∙л-1 ГА3 та ГА4 під час вирощування на відпрацьованому маслі від смаження м’яса. Отримані результати є основою для розробки економічно вигідної технології переробки токсичних відходів з використанням N. vaccinii ІМВ В-7405, A.calcoaceticus ІМВ В-7241 та R. erythropolis ІМВ Ас-5017. Така технологія дозволить розробляти комплексні мікробні препарати з різними біологічними властивостями в одному процесі.Документ Practically valuable metabolites of marine microorganisms(2020) Pirog, Tatiana; Martyniuk, Anna; Skrotska, Oksana; Shevchuk, TetianaThe review considers the modern literature data on the synthesis by fungi, actinobacteria, and bacteria isolated from marine ecosystems (seawater, bottom sediments, flora and fauna, mangrove biomes, glaciers), practically valuable metabolites. Marine microorganisms synthesize a wide range of practically valuable enzymes (cold-active galactosidase, agarase, alginate lyase, fucoidase, chitinase, etc.), surface-active glyco- and lipopeptides with emulsifying, antimicrobial and antiadhesive activity, as well as secondary metabolites with diverse biological activity (antimicrobial, antitumor, cytotoxic). However, the use of marine producers in biotechnological processes is constrained by their low synthesizing capacity and high costs of biosynthesis (complex nutrient media and expensive carbohydrate substrates). In biotechnology, marine microorganisms can be used as sources of genes encoding the synthesis of new biologically active substances with unique properties, including antimicrobial and antitumor.