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Vladimirova (Cherkasova) Maria Evgenievna

  • Vladimirova (Cherkasova) Maria Evgenievna

    Research Engineer

    Information

      WoS ResearcherID: C-9626-2017

      Scopus AuthorID: 57216992194

      ORCID: 0000-0003-1873-9674

      SPIN-код: 5341-5736

      AuthorID: 820960

     

    Education:

    2008-2012

    St. Petersburg State University (St. Petersburg State University), St. Petersburg, Russia

    Faculty of Biology and Soil Sciences, Faculty of Biology. Biochemistry

    Bachelor of Biology

     

    2012-2014

    St. Petersburg State University (St. Petersburg State University), St. Petersburg, Russia

    Faculty of Biology, Faculty of Biology. Biochemistry

    Master of Biology

     

    2014-2018

    Federal State Budgetary Scientific Institution "All-Russian Scientific Research Institute of Agricultural Microbiology" (FGBNU VNIISKHM), St. Petersburg, Pushkin, Russia

    Postgraduate study (based on the Laboratory of Genetics and selection of microorganisms)

    Postgraduate diploma No.107824 3914917, Specialty 06.06.02 Biological Sciences, qualification "Researcher. Teacher-researcher"

     

    Work experience:

    from January 2012 to the present – Laboratory of Genetics and Selection of microorganisms, FGBNU VNIISHM

     

    Participation in scientific projects:

    • The state task FGEW-2021-0006
    • NCMU "Agrotechnologies of the Future" (2020-2024);
    • RNF 20-16-00105 Immunity systems of nitrogen-fixing nodule bacteria: assessment of their diversity and prospects for application in agrobiotechnology (2020-2022; performer);
    • RNF 17-16-01095 (Analysis of the patterns of genomic rearrangements in virulent and non-virulent nodule bacteria and assessment of the risks of their impact on economically valuable properties and stress resistance of plant and microbial systems (2017-2019; performer));
    • RFBR 18-04-01278a (Genomic islands as a natural potential gene bank that determines the genotypic diversity of bacteria: on the example of nitrogen-fixing symbiotic species of nodule bacteria (2018-2020; performer));
    • RFBR 17-04-02011a (Analysis of functionally different gene groups of nodule bacteria Sinorhizobium meliloti and host plants promising for the formation of highly productive symbiotic nitrogen-fixing systems of wide adaptive potential (2017-2019; performer));
    • RFBR 15-04-09295a (Mosaic of chromosomal islands of nodule bacteria Sinorhizobium meliloti as an indicator of genetic monitoring of economically valuable nitrogen-fixing symbionts of alfalfa in agrocenoses complicated by unfavorable soil-climatic and technogenic factors (2015-2017; performer));
    • RFBR 14-04-01441a (Molecular genetic and functional analysis of Tn5-labeled genes of nodule bacteria Sinorhizobium meliloti, responsible for the formation of highly effective symbiotic systems with economically valuable alfalfa species in various ecological and climatic conditions (2014-2016; performer)).

     

    Educational activities:

    The head of the final qualification work of the Bachelor of the Faculty. Molecular Biotechnology, Faculty of Chemical and Biotechnology, St. Petersburg State Technical University (TU) Dorosevich P.A.

     

    Selected publications:

    1. Kozlova, A.P.; Saksaganskaia, A.S.; Afonin, A.M.; Muntyan, V.S.; Vladimirova, M.E.; Dzyubenko, E.A.; Roumiantseva, M.L. A Temperate Sinorhizobium Phage, AP-16-3, Closely Related to Phage 16-3: Mosaic Genome and Prophage Analysis. Viruses 2023, 15, 1701. https://doi.org/10.3390/v15081701

    2. Roumiantseva M.L., Vladimirova M.E., Saksaganskaia A.S., Muntyan V.S., Kozlova A.P., Afonin A.M., Baturina O.A., Simarov B.V. Ensifer meliloti L6-AK89, an Effective Inoculant of Medicago lupulina Varieties: Phenotypic and Deep-Genome Screening // Agronomy. 2022. V. 12. Iss. 4. 766. https://doi.org/10.3390/agronomy12040766

    3. Vladimirova M.E., Muntyan V.S., Afonin A.M., Muntyan A.N., Baturina O.A., Dzuybenko E.A., Saksaganskaya A.S., Simarov B.V., Roumiantseva M.L., Kabilov M.R. Complete Genome of Sinorhizobium meliloti AK76, a Symbiont of Wild Diploid Medicago lupulina from the Mugodgary Mountain Region // Microbiol Resour Announc. 2022. V. 11. Iss. 3. e0108821. https://doi.org/10.1128/mra.01088-21

    4. Muntyan V.S., Afonin A.M., Vladimirova M.E., Saksaganskaya A.S., Gribchenko E.S., Baturina O., Roumiantseva M.L. Complete genome sequence of Sinorhizobium meliloti S35m, a salt-tolerant isolate from alfalfa rhizosphere in soil native to the Caucasus region // Microbiol Resour Announc. 2021. V. 10. Iss. 11. e01417-20. https://doi.org/10.1128/MRA.01417-20

    5. Vladimirova M., Muntyan V., Afonin A., Saksaganskaya A., Antonova E., Simarov B., Roumiantseva M. Prophages and phage related sequences in chromosomes of Sinorhizobium meliloti isolates native to Aral Sea region // FEBS Open Bio 11 (Suppl. 1) (2021) P. 108-109. https://doi.org/10.1002/2211-5463.13205

    6. Vladimirova M., Roumiantseva M. Phage related sequences a site specifically integrated into isoacceptor tRNA genes of Sinorhizobium meliloti // ENFC 2021 (Abstract Booklet) Aarhus University, September–October 2021, P. 151.

    7. Черкасова М.Е., Мунтян В.С., Саксаганская А.С., Симаров Б.В., Румянцева М.Л. Sinorhizobium meliloti: хромосомные типы и геномные острова // Экологическая генетика. 2019. Т. 17. № 3. С. 23-38. https://doi.org/10.17816/ecogen17323-38 [Cherkasova M.E., Muntyan V.S., Saksaganskaia A.S., Simarov B.V., Roumiantseva M.L. Sinorhizobium meliloti: chromosomal types and genomic islands // Ecological Genetics. 2019. Vol 17, No 3. P. 23-38 https://doi.org/10.17816/ecogen17323-38]

    8. Baturina O.A., Muntyan V.S., Afonin A.M., Cherkasova M.E., Simarov B.V., Kabilov M.R., Roumiantseva M.L. // Draft genome sequence of Sinorhizobium meliloti strain CXM1-105 // Microbiol Resour Announc. 2019. V. 8. Iss. 2. e01621-18. https://doi.org/10.1128/MRA.01621-18

    9. Muntyan V.S., Baturina O.A., Afonin A.M., Cherkasova M.E., Laktionov Y.V., Saksaganskaya A.S., Kabilov M.R., Roumiantseva M.L. // Draft genome sequence of Sinorhizobium meliloti AK555 // Microbiol Resour Announc. 2019. V. 8. Iss. 2. e01567-18. https://doi.org/10.1128/MRA.01567-18

    10. Baturina O.A., Muntyan V.S., Cherkasova M.E., Saksaganskaya A.S., Dzuybenko N.I., Kabilov M.R., Roumiantseva M.L. // Draft genome sequence of Sinorhizobium meliloti strain AK170 // Microbiol Resour Announc. 2019. V. 8. Iss. 1. e01571-18. https://doi.org/10.1128/MRA.01571-18

    11. Румянцева М.Л., Мунтян В.С., Черкасова М.Е., Саксаганская А.С., Андронов Е.Е., Симаров Б.В. Геномные острова штамма Sinorhizobium meliloti Rm1021 – азотфиксирующего симбионта люцерны // Генетика. 2018. Т. 54. № 7. С. 745-756. https://doi.org/10.1134/S0016675818070135 [Roumiantseva M.L., Muntyan V.S., Cherkasova M.E., Saksaganskaya A.S., Andronov E.E., Simarov B.V. Genomic islands in Sinorhizobium meliloti Rm1021, nitrogen-fixing symbiont of alfalfa // Russian Journal of Genetics. 2018. V. 54. Iss. 7. P. 759-769. https://doi.org/10.1134/S102279541807013X]

    12. Румянцева М.Л., Саксаганская А.С., Мунтян В.С., Черкасова М.Е., Симаров Б.В. Структурный полиморфизм генов вирулентности и солеустойчивости Sinorhizobium meliloti // Генетика. 2018. Т. 54. № 5. С. 524-534. https://doi.org/10.7868/S001667581805003X [Roumiantseva M.L., Saksaganskaia A.S., Muntyan V.S., Cherkasova M.E., Simarov B.V. Structural polymorphism of Sinorhizobium meliloti genes related to virulence and salt tolerance // Russian Journal of Genetics. 2018. V. 54. Iss. 5. P. 525-535. https://doi.org/10.1134/S1022795418050083]



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