М. Ю. Карташов scite author profile

М. Ю. Карташов

5Publications

57Citation Statements Received

61Citation Statements Given

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Affiliations

State Research Center of Virology and Biotechnology VECTOR, Russian Research Institute for Phytopathology, Novosibirsk State University

Publications

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Assessment of the Sensitivity of Some Plant Pathogenic Fungi to 6-Demethylmevinolin, a Putative Natural Sensitizer Able to Help Overcoming the Fungicide Resistance of Plant Pathogens

et al. 2020

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Agricultural fungicides contaminate the environment and promote the spread of fungicide-resistant strains of pathogenic fungi. The enhancement of pathogen sensitivity to these pesticides using chemosensitizers allows the reducing of fungicide dosages without a decrease in their efficiency. Using Petri plate and microplate bioassays, 6-demethylmevinolin (6-DMM), a putative sensitizer of a microbial origin, was shown to affect both colony growth and conidial germination of Alternaria solani, A. alternata, Parastagonospora nodorum, Rhizoctonia solani, and four Fusarium species (F. avenaceum, F. culmorum, F. oxysporum, F. graminearum) forming a wheat root rot complex together with B. sorokiniana. Non- or marginally toxic 6-DMM concentrations suitable for sensitizing effect were determined by the probit analysis. The range of determined concentrations confirmed a possibility of using 6-DMM as a putative sensitizer for the whole complex of root rot agents, other cereal pathogens (A. alternata, P.nodorum), and some potato (R. solani, A. solani) and tomato (A. solani) pathogens. Despite the different sensitivities of the eight tested pathogens, 6-DMM lacked specificity to fungi and possessed a mild antimycotic activity that is typical of other known pathogen-sensitizing agents. The pilot evaluation of the 6-DMM sensitizing first confirmed a principal possibility of using it for the sensitization of B. sorokiniana and R. solani to triazole- and strobilurin-based fungicides, respectively.

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Study of the Protective Activity of Chitosan Hydrolyzate Against Septoria Leaf Blotch of Wheat and Brown Spot of Tobacco

Shagdarova

Ilyina

Лопатин

et al. 2018

Appl Biochem Microbiol

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Use of different concentrations of enzymesporin probiotic in feeding of growing young pigs

et al. 2019

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The study, which included four groups of growing young pigs (each consisting of 30 animals), was arranged under conditions of the Bryansk meat-processing plant and laboratories of the Ernst Federal Research Center of Animal Husbandry. The duration of the experiment was 113 days. Animals of the group 1 (control) were fed with the SK-4, SK-5 and SK-6 mixed fodders without any probiotic additives. The Groups 2 and 3 were fed by a mixed fodder supplemented with the Enzymesporin probiotic (0.5 and 1.0 kg t-1, respectively). The Group 4 was fed by a mixed fodder supplemented with the Virginiamycin antibiotic (250 g t-1). The feeding of different concentrations of the Enzymesporin probiotic complex and Virginiamycin antibiotic to the growing young pigs of the experimental Groups 2, 3, and 4 provided the average daily liveweight gain equal to 771.4, 775.4, and 818.8 g (5.8, 6.5, and 12.2%), respectively, as compared to the control. Addition of different dosages of the probiotic complex or the antibiotic to the fodder fed to the growing young pigs (Groups 2, 3, and 4) did not result in a significant increase in the lysozyme and bactericidal activity of blood serum and the phagocytic activity, though a tendency to the phagocytic index increase was observed. Addition of the probiotic complex to forage did not provide any negative impact on the intestinal microbiocoenosis; moreover, it positively influenced on the growth of lactobacteria.

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Influence of probiotic complex on productive performance and metabolism in growing pigs

et al. 2020

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КОРМОПРОИЗВОДСТВО, КОРМЛЕНИЕ С/Х ЖИВОТНЫХВлияние пробиотического комплекса на продуктивные качества и обменные процессы у растущего откармливаемого молодняка свиней РЕЗЮМЕ Актуальность. На сегодняшний день накоплен обширный научный и практический материал по изучению эффективности пробиотических кормовых добавок в кормлении сельскохозяйственных животных. Изучены некоторые механизмы их действия на организм животного, установлены положительные эффекты, выражающиеся в улучшении микробного баланса кишечника, повышения защитных свойств организма, реализации продуктивных качеств животных. Необходимо изучение эффективности использования пробиотических комплексов в сравнении с действием антибиотиксодержащих препаратов. Методика. Изучен пробиотический комплекс Энзимспорин, содержащий консорциум бактерий рода Bacillus (Bacillus subtilis ВКМ В-2998 D, Bacillus licheniformis ВКМ В-2999 D, Bacillus subtilis ВКМ В-3057D) не менее 5х109 КОЕ/г в сравнении с действием кормового антибиотиксодержащего препарата Вирджиниамицин в кормлении откармливаемого молодняка свиней. Исследования проведены на четырех группах (30 голов в каждой группе) растущего откармливаемого молодняка свиней в условиях ООО «Брянский мясоперерабатывающий комбинат» и в лабораториях ФГБНУ ФНЦ ВИЖ им. Л.К. Эрнста. Продолжительность эксперимента составила 113 дней. При проведении исследований контрольная группа животных получала комбикорма СК-4, СК-5 и СК-6 без внесения пробиотических добавок, тогда как растущий откармливаемый молодняк 2-й и 3-й опытных групп -комбикорма с добавлением пробиотика Энзимспорин в количестве 0,5 и 1,0 кг/т, 4-я опытная группа свиней -комбикорма с добавлением антибиотиксодержащего препарата Вирджиниамицин 250 г/т. Результаты. При скармливании растущему молодняку свиней пробиотического препарата и кормового антибиотика к концу исследований живая масса и среднесуточные приросты подопытных животных увеличились на 5,0; 6,0; 10,02 и 5,8; 6,5; 12,2% (р < 0,001) соответственно по сравнению с контролем. При обогащении рационов растущего молодняка свиней пробиотиком и антибиотиксодержащим препаратом биохимические, морфологические, иммунологические показатели крови соответствовали физиологическим нормам, при этом включение в состав комбикормов откармливаемых свиней различных уровней пробиотического комплекса приводило к значительному повышению лизоцимной, бактерицидной и фагоцитарной активности крови у животных 2-ой и 3-ей групп, в период доращивания. Дополнительная прибыль за период исследований составила в опытных группах откармливаемого молодняка свиней +705,0; +849,0 и 1440,0 руб./гол., соответственно, в сравнении с контролем, что свидетельствует об эффективном применении не только антибиотиксодержащих препаратов в кормлении свиней, но и предполагает эффективное использование пробиотиков взамен антибиотиксодержащих кормовых препаратов. Influence of probiotic complex on productive performance and metabolism in growing pigsABSTRACT Topicality. To date, an extensive scientific and practical material has been accumulated to study the effectiven...

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Strain Improvement of Streptomyces xanthochromogenes RIA 1098 for Enhanced Pravastatin Production at High Compactin Concentrations

et al. 2015

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Pravastatin is one of the most popular cholesterol-lowering drugs. Its industrial production represents a two-stage process including the microbial production of compactin and its further biocatalytic conversion to pravastatin. To increase a conversion rate, a higher compactin content in fermentation medium should be used; however, high compactin concentrations inhibit microbial growth. Therefore, the improvement of the compactin resistance of a producer still remains a relevant problem. A multi-step random UV mutagenesis of a Streptomyces xanthochromogenes strain RIA 1098 and the further selection of high-yield compactin-resistant mutants have resulted in a highly productive compactin-resistant strain S 33-1. After the fermentation medium improvement, the maximum bioconversion rate of this strain has reached 91 % at the daily compactin dose equal to 1 g/L and still remained high (83 %) even at the doubled dose (2 g/L). A 1-year study of the mutant strain stability has proved a stable inheritance of its characteristics that provides this strain to be very promising for the pravastatin-producing industry.

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