Аксенов-Грибанов Денис Викторович
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Кандидат биологических наук, доцен Образование и ученая степень:
Научные интересы:Химия природных соединений; Экологическая физиология, экология, биотехнология; Стресс, стресс-адаптация; Организмы – продуценты; Нейрогенез, биосинтез; Хроматография, масс-спектрометрия; Проектирование лабораторий и лабораторных установок. Читаемые курсы:
Участие в грантах и хоз. договорах:Грант РНФ «Выявление симбионтных микроорганизмов и возбудителей инфекционных заболеваний у Байкальских эндемичных амфипод» (2018-2020); Грант РФФИ «Биологические деструкторы в экосистеме оз. Байкал: симбиоз, роль и биотехнологических потенциал» (2018-2021); Грант РНФ «Сибирское трюфелеводство и оценка биотехнологического потенциала лабораторных культур различных штаммов трюфелей» (2020-2022); Грант Президента РФ «Трансляция потенциала психрофильных микроорганизмов озера Байкал для нейрофизиологии» (2021-2022); Госзадание Минобрнауки РФ «Разработка трансдермальных лекарственных средств и биопрепаратов для терапии нейродегенеративных заболеваний на основе экстремофильных обитателей байкальской природной территории» (2021-2023); Грант РНФ «Биотехнологический и агротехнологический потенциал трюфелевых и трюфелеподобных грибов и ассоциированных с ними микроорганизмов» (2021-2023); Фонд содействия инновациям СТАРТ-1 «Разработка научного оборудования для биотехнологических лабораторий и малых биотехнологических производств» (2023-2024); Грант Минобрнауки РФ «Оценка загрязнения экосистемы озера Байкал фармацевтическими субстанциями и разработка эффективных способов биоремидиации» (2024-2026); Грант Минобрнауки РФ «Оценка адаптивного потенциала оксифилов озера Байкал: фундаментальные исследования и поиск терапевтических решений для нейродегенеративных заболеваний и устранения негативных последствий окислительного стресса на моделях in vitro» (2024-2026). |
Научно-педагогический стаж - 5 лет Контакты: Телефон: 8(3952)24-19-27 Электоронная почта: denis.axengri@gmail.com Адрес: 664003, г. Иркутск, ул. Сухэ-Батора, 5.Иркутский государственный университет, Кафедра гидробиологии и зоологии беспозвоночных. |
Список публикаций:
1. Morgunova et al (2024). Black and white truffles as a source of neuroactive biogenic amines / M. Morgunova, E. Malygina, M. Dmitrieva, A. Belyshenko, V. Shelkovnikova, N. Imidoeva, A. Vlasova, T. Telnova, S. Evstafiev, D. Axenov-Gribanov // Natural Product Research (Taylor & Francis Group) (Scopus, Web of Science), 1–4. https://doi.org/10.1080/14786419.2024.2415431
2. Malygina et al. (2024) Comparative Study of Mechanical and Biological Pretreatment for Releasing Spores of Black Truffle Tuber aestivum / E.V. Malygina, N.A. Imidoeva, A.Yu. Belyshenko, M. E. Dmitrieva , V.N. Shelkovnikova, A.A. Vlasova, T.Y. Telnova, M.M. Morgunova, A.S. Konovalov, D.V. Axenov-Gribanov // Mycobiology 2024, 1–9. (Scopus, Web of Science) https://doi.org/10.1080/12298093.2024.2391627
3. Telnova. et al. (2024) Detection of pharmaceutical contamination in amphipods of Lake Baikal by the HPLC-MS method / T.Yu. Telnova, M.M. Morgunova, S.S. Shashkina, A.A. Vlasova, M.E. Dmitrieva, V.N. Shelkovnikova, E.V. Malygina, N.A. Imidoeva, A.Yu. Belyshenko, A. S. Konovalov, E.A. Misharina, D.V. Axenov-Gribanov // Antibiotics 2024, 13(8), 738; (Scopus, Web of Science) https://doi.org/10.3390/antibiotics13080738
4. Malygina et al. (2024). First report on metagenomic communities of truffle Tuber aestivum collected in Russia / Malygina E.V., Imidoeva N.A., Morgunova M.M., Dmitrieva M.E., Belyshenko A. Y., Vlasova A.A. , Shelkovnikova V.N., Telnova T.Y., Konovalov A.S., Axenov-Gribanov D.V. // Journal of experimental Biology and Agricultural Science. 12(1), 16–35. DOI.: 10.18006/2024.12(1).16.35 (Scopus, Web of Science) https://jebas.org/ojs/index.php/jebas/article/view/1803
5. Dmitrieva et al. (2024). The analysis of secondary metabolism gene clusters of the thermophilic strain Streptomyces sp., isolated from the endemic coldwater sponge of Lake Baikal (P-35-057) / Dmitrieva M., Shelkovnikova V., Potapova N., Malygina E., Vlasova A., Martynova E., Konovalov A., Axenov-Gribanov D. // FEBS Open Bio, the 48th FEBS Congress, (SI), 14, 29 June – 3 July 2024, Italy. P. 444 https://doi.org/10.1002/2211-5463.13837 (IF 2.1, Q2) (Web of Science)
6. Shelkovnikova et al. (2024). Primary evaluation of the effect of biologically active compounds synthesized by Baikal oxyphilic Janthinobacterium sp. on human spermatozoa (P-35-060) / Shelkovnikova V., Dmitrieva M., Belyshenko A., Imidoeva N., Morgunova M., Telnova T., Axenov-Gribanov D. // FEBS Open Bio, the 48th FEBS Congress, (SI), 14, 29 June – 3 July 2024, Italy. P. 445. https://doi.org/10.1002/2211-5463.13837 (IF 2.1, Q2) (Web of Science)
7. Dmitrieva et al. (2024). The stimulating effect of the Baikal oxyphilic bacterium Janthinobacterium sp. on human spermatozoa in vitro (H-010) / Dmitrieva M.E., Shelkovnikova V.N., Belyshenko A.Yu., Telnova T.Yu., Martynova E.I., Batalova A.A., Romashova A.K., Lipatova O.E., Axenov-Gribanov D.V. // ECB2024, 30 June – 3 July 2024, Netherlands, Rotterdam. P.359. https://www.ecb2024.com/ (Web of Science)
8.Vlasova et al. (2024). Effect of truffle extracts on the growth of Chlorella vulgaris / A.A. Vlasova, O.E. Lipatova, A.Y. Belyshenko, E.I. Martynova, N.A. Imidoeva, T.Y. Telnova, E.V. Malygina, M.M. Morgunova, M.E. Dmitrieva, V.N. Shelkovnikova, S.S. Shashkina, T.N. Vavilina, D.V. Axenov-Gribanov // bioRxiv. https://doi.org/10.1101/2024.07.03.601813
9. Imidoeva et al. (2023). A way to mechanically activate a suspension of black truffle spores. Proceedings of Universities / Imidoeva N.A., Malygina E.V., Belyshenko A.Yu., Dmitrieva M.E., Shelkovnikova V.N., Morgunova M.M., Kulinich S.V., Vavilina T.N., Evstaf‘ev S.N., Axenov-Gribanov D.V. // Applied Chemistry and Biotechnology. 2023;13(4):561-568. (In Russ.) https://doi.org/10.21285/2227-2925-2023-13-4-561-568
10. Тельнова Т.Ю., Моргунова М.М., Шашкина С.С., Имидоева Н.А., Шелковникова В.Н., Уколов Д.А., Аксенов-Грибанов Д.В. Природные соединения семян сибирских видов Aconitum spp. // Journal of Agriculture and Environment, 2024. – Т. 10(50). – Р. 1-4. https://doi.org/10.60797/JAE.2024.50.7 (РИНЦ, ВАК)
11. Моргунова М.М. Первичная оценка жирнокислотного состава и низкомолекулярных природных соединений российского трюфеля Tuber macrosporum/ Моргунова М.М., Шашкина С.С., Малыгина Е.В.,. Дмитриева М.Е, Тигунцева Н.П., Белышенко А.Ю., Власова А.А., Евстафьев С.Н., Аксенов-Грибанов Д.В.// Химия природных соединений. – 2023. – № 4. – стр. 635-636. (РИНЦ, ВАК)
12. Dmitrieva et al. (2023) The effects of a high concentration of dissolved oxygen on actinobacteria from Lake Baikal / M.E. Dmitrieva, E.V. Malygina, A.Y. Belyshenko, V.N. Shelkovnikova, N.A. Imidoeva, M.M. Morgunova, T.Y. Telnova, A.A. Vlasova, D.V. Axenov-Gribanov // Metabolites (2023), 13(7), 830; https://doi.org/10.3390/metabo13070830 (Q2, IF 5.581, Scopus, Web of Science)
13. Morgunova et al. (2023) Preliminary assessment of fatty-acid composition and low-molecular-mass natural compounds from Russian truffle Tuber macrosporum / Morgunova M. M., Shashkina S.S., Malygina E.V., Dmitrieva M.E., Tiguntseva N.P., Belyshenko A.Y., Vlasova A.A., Evstafiev S.N., Axenov-Gribanov D.V.// Chemistry of natural products (Springer) Chemistry of Natural Compounds 59, 759–761 (2023). https://doi.org/10.1007/s10600-023-04103-7 (Q3, IF 0,8, Scopus, Web of Science)
14. Morgunova et al. (2022) Screening, identification, and antibiotic activity of secondary metabolites of Penicillium sp. LPB2019K3-2 isolated from endemic amphipods of Lake Baikal/Morgunova M.M., Pereliaeva E.V., Dmitrieva M.E., Belyshenko A.Y., Konovalov A.S., Telnova T.Y., Shelkovnikova V.N., Vlasova A.A. Axenov-Gribanov D.V. // Journal of Experimental Biology and Agricultural Sciences, 2022. – Vol. 10 (6). – P. 1422-1431 DOI: http://dx.doi.org/10.18006/2022.10(6).1422.1431 (Scopus, Web of Science).
15. Pereliaeva et al. (2022) The use of Baikal psychrophilic Actinobacteria for synthesis of biologically active natural products from sawdust waste / E.V. Pereliaeva, M.E. Dmitrieva, M.M. Morgunova, A.Y. Belyshenko, N.A. Imidoeva, A.S.Ostyak, D.V. Axenov-Gribanov // Fermentation. – 2022, 8(5), 213; https://doi.org/10.3390/fermentation8050213 (Q1, Scopus, Web of Science)
16. Dmitrieva et al. (2022) The analysis of oxyphilic metagenomic communities of Lake Baikal / Dmitrieva M., Shelkovnikova V., Pereliaeva E., Belyshenko A., Morgunova M., Dmitriev I., Axenov-Gribanov D. // FEBS Open Bio (SI), 12 (IF 2.1, Q2). P-04.4-026 pp.279-280. DOI: 10.1002/2211-5463.13440 (Web of Science)
17. Pereliaeva et al. (2022) The first assessment of metagenomic communities of Russian black truffle Tuber aestivum / Pereliaeva E. V., Morgunova M.M., Dmitrieva M.E., Imidoeva N.A., Belyshenko A.Y., Emshanova V.A., Ruleva A. Axenov-Gribanov D.V. // FEBS Open Bio (SI), 12 (Q2, IF 2.1) FEBS Open Bio (SI), 12 (IF 2.1, Q2). P-06.1-007 p.318 . DOI: 10.1002/2211-5463.13440 (Web of Science)
18. Morgunova et al. (2022) Drug contamination in Baikal endemic Amphipods / Morgunova M., Telnova T., Dmitrieva M., Pereliaeva E., Belyshenko A., Shashkina S., Axenov-Gribanov D. FEBS Open Bio (SI), 12 (IF 2.1, Q2).P-04.5-025 p. 295 . DOI: 10.1002/2211-5463.13440
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DOI: 10.3390/fermentation8050213
Q1, IF (2020) 3.975 SJR(2020) 0.72
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Q2, IF (2020) 2.406 SJR(2020) 0.55
21. Axenov-Gribanov, D.V., Rzhechitskiy, Y.A., Morgunova, M.M., Emshanova, V.A., Lubyaga, Y.A., Vereshchagina, K.P., Luzhetskyy, A.N. High concentrations of dissolved oxygen influence the composition of low molecular weight natural compounds in Lake Baikal endemic amphipods (2021) Crustaceana, 94 (4), pp. 393-405.
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IF (2020) 0.52 SJR(2020) 0.278
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IF (2020) 0.52 SJR(2020) 0.278
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DOI: 10.1155/2020/5359816
SJR(2020) 0.696
24. Protasov, E.S.*, Axenov-Gribanov, D.V.*, Shatilina, Z.M., Timofeyev, M.A., Lane, A.L. Freshwater Actinobacteria from sediments of the deep and ancient Lake Baikal (Russia) and their genetic potential as producers of secondary metabolites
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Q1-Q2 (2020), IF (2020) 1.78 SJR(2020) 0.57
25. Protasov, E.S.*, Axenov-Gribanov, D.V.*, Rzhechitsky, Y.A., Emshanova, V.A., Shirokova, Y.A., Timofeyev, M.A. Diversity of culturable actinobacteria associated with deepwater endemic amphipods of Lake Baikal and study of their biosynthetic capabilities (2020) Limnology, 21 (1), pp. 35-47.
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26. Voytsekhovskaya, I.V.*, Axenov-Gribanov, D.V.*, Murzina, S.A., Pekkoeva, S.N., Protasov, E.S., Gamaiunov, S.V., Timofeyev, M.A. Estimation of antimicrobial activities and fatty acid composition of actinobacteria isolated from water surface of underground lakes from Badzheyskaya and Okhotnichya caves in Siberia (2018) PeerJ, 2018 (10), статья № e5832, .
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DOI: 10.7717/peerj.5832
Q1, IF (2020) 2.98 SJR(2020) 0.927
27. Shchapova, E.P.*, Axenov-Gribanov, D.V.*, Lubyaga, Y.A., Shatilina, Z.M., Vereshchagina, K.P., Madyarova, E.V., Protasov, E.S., Timofeyev, M.A. Crude oil at concentrations considered safe promotes rapid stress-response in Lake Baikal endemic amphipods (2018) Hydrobiologia, 805 (1), pp. 189-201.
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Q1, IF (2020) 2.69 SJR(2020) 0.843
28. Voitsekhovskaia, I., Paulus, C., Dahlem, C., Rebets, Y., Nadmid, S., Zapp, J., Axenov-Gribanov, D., Rückert, C., Timofeyev, M., Kalinowski, J., Kiemer, A.K., Luzhetskyy, A. Baikalomycins A-C, new aquayamycin-type angucyclines isolated from lake baikal derived streptomyces sp. IB201691-2A (2020) Microorganisms, 8 (5), статья № 680, .
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Q1-Q2, IF (2020) 4.167 SJR(2020) 0.858
29. Vereshchagina, K., Kondrateva, E., Mutin, A., Jakob, L., Bedulina, D., Shchapova, E., Madyarova, E., Axenov-Gribanov, D., Luckenbach, T., Pörtner, H.-O., Lucassen, M., Timofeyev, M. Low annual temperature likely prevents the Holarctic amphipod Gammarus lacustris from invading Lake Baikal (2021) Scientific Reports, 11 (1), статья № 10532, .
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30. Jakob, L., Vereshchagina, K.P., Tillmann, A., Rivarola-Duarte, L., Axenov-Gribanov, D.V., Bedulina, D.S., Gurkov, A.N., Drozdova, P., Timofeyev, M.A., Stadler, P.F., Luckenbach, T., Pörtner, H.-O., Sartoris, F.J., Lucassen, M. Thermal reaction norms of key metabolic enzymes reflect divergent physiological and behavioral adaptations of closely related amphipod species (2021) Scientific Reports, 11 (1), статья № 4562, .
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Q1, IF (2020) 4.379 SJR(2020) 1.24
31. Pekkoeva, S.N., Voronin, V.P., Shatilina, Z.M., Madyarova, E.V., Axenov-Gribanov, D.V., Shirokova, Y.A., Timofeyev, M.A., Nemova, N.N., Murzina, S.A. Lipid and fatty acid composition of scavenging amphipods Ommatogammarus spp. from different depths of lake Baikal (2021) Limnology, 22 (3), pp. 299-311.
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Q2, IF (2020) 1.576 SJR(2020) 0.542
32. Lubyaga, Y., Trifonova, M., Drozdova, P., Gurkov, A., Madyarova, E., Axenov-Gribanov, D., Kurashov, E., Vereshchagina, K., Shatilina, Z., Timofeyev, M. Invader amphipods Gmelinoides fasciatus (Stebbing, 1899) inhabiting distant waterbodies demonstrate differences in tolerance and energy metabolism under elevated temperatures (2020) Journal of Great Lakes Research, 46 (4), pp. 899-909.
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DOI: 10.1016/j.jglr.2020.05.011
Q1-Q2, IF (2020) 2.480 SJR(2020) 0.720
33. Golubev, A.P., Khomich, A.S., Axenov-Gribanov, D.V., Lubyaga, Y.A., Shatilina, Z.M., Shirokova, Y.A., Bodilovskaya, O.A. Significance of Cross-Fertilization and Self-Fertilization for Preserving the Population Stability of Dominant (Lymnaea stagnalis) and Rare (Stagnicola corvus) Species of Freshwater Pulmonary Mollusks (2019) Contemporary Problems of Ecology, 12 (5), pp. 482-490.
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DOI: 10.1134/S1995425519050056
SJR(2020) 0.342
34. Drozdova, P., Rivarola-Duarte, L., Bedulina, D., Axenov-Gribanov, D., Schreiber, S., Gurkov, A., Shatilina, Z., Vereshchagina, K., Lubyaga, Y., Madyarova, E., Otto, C., Jühling, F., Busch, W., Jakob, L., Lucassen, M., Sartoris, F.J., Hackermüller, J., Hoffmann, S., Pörtner, H.-O., Luckenbach, T., Timofeyev, M., Stadler, P.F. Comparison between transcriptomic responses to short-term stress exposures of a common holarctic and endemic lake baikal amphipods (2019) BMC Genomics, 20 (1), статья № 712, .
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DOI: 10.1186/s12864-019-6024-3
Q1, IF (2020) 3.96 SJR(2020) 1.547