Accounting System of Scientific Activity (ASSA)

Sector of Molecular Mechanisms of Repair

Systems Biology Department

Alexander Blinov
[Leading Researcher]

Publications

Staff

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2021	TIM29 is required for enhanced stem cell activity during regeneration in the flatworm Macrostomum lignano Mouton S., Ustyantsev K., Beltman F., Glazenburg L., Berezikov E. SCI REP-UK, 2021
	Diversity and Phenotypical Effect of the Allele Variants of Dwarfing Rht Genes in Wheat. Sukhikh I.S., Vavilova V.Y., Blinov A.G., Goncharov N.P. RUSS J GENET+, 2021, Vol. 57(2):127-138.
	Computational Analysis of Spliced Leader Trans-Splicing in the Regenerative Flatworm Macrostomum lignano Reveals its Prevalence in Conserved and Stem Cell Related Genes Ustyantsev K., Berezikov E. Vavilov journal of genetics and breeding, 2021
	Macrostomum lignano as a model to study genetics and genomics of parasitic flatworms Ustyantsev K., Vavilova V., Blinov A., Berezikov E. Vavilov journal of genetics and breeding, 2021
	Proof of principle for piggyBac-mediated transgenesis in the flatworm Macrostomum lignano Kirill Ustyantsev, Jakub Wudarski, Igor Sukhikh, Filipa Reinoite, Stijn Mouton, Eugene Berezikov GENETICS, 2021
2020	Evolution of Btr1-А Gene in Diploid Wheat Species of the Genus Triticum L. Vavilova V., Konopatskaia I., Blinov A., Goncharov N.P. RUSS J GENET+, 2020, Vol. 56, No. 5. P. 633–637.
	The free-living flatworm Macrostomum lignano Wudarski J., Egger B., Ramm S.A., Schärer L., Ladurner P., Zadesenets K.S., Rubtsov N.B., Mouton S., Berezikov E. EVODEVO, 2020, 11 (5)
	Classification of LTR retrotransposons in the flatworm Macrostomum lignano M. Biryukov, E. Berezikov, K. Ustyantsev Письма в Вавиловский журнал генетики и селекции, 2020, 6(2), 54-59
	Green revolution ‘stumbles’ in a dry environment: Dwarf wheat with Rht genes fails to produce higher grain yield than taller plants under drought S. Jatayev, I. Sukhikh, V. Vavilova, S. E. Smolenskaya, N. P. Goncharov, A. Kurishbayev, L. Zotova, A. Absattarova, D. Serikbay, Y.‐G. Hu, N. Borisjuk, N. K. Gupta, B. Jacobs, S. de Groot, F. Koekemoer, B. Alharthi, K. Lethola, D. T. Cu, C. Schramm, P. Anderson, C. L. D. Jenkins, K. L. Soole, Y. Shavrukov, P. Langridge PLANT CELL ENVIRON, 2020, Vol. 43. P. 2355–2364.
	Genetic variability of spelt factor gene in Triticum and Aegilops species Vavilova V., Konopatskaia I., Blinov A., Kondratenko E.Ya., Kruchinina Y.V., Goncharov N.P. BMC PLANT BIOL, 2020, Vol. 21. (Suppl. 1):310
	TaDrAp1 and TaDrAp2, Partner genes of a transcription repressor, coordinate plant development and drought tolerance in spelt and bread wheat Zotova L., Shamambaeva N., Lethola K., Alharthi B., Vavilova V., Smolenskaya S.E., Goncharov N.P., Jatayev S., Kurishbayev A., Gupta N.K., Gupta S., Schramm C., Anderson P., Jenkins C.L.D., Soole K.L., Shavrukov Yu. INT J MOL SCI, 2020, Vol. 21. P. 8296
	Эволюция гена Btr1-А у диплоидных видов пшениц рода Triticum L. Вавилова В.Ю., Конопацкая И.Д., Блинов А.Г., Гончаров Н.П. Генетика, 2020, Т. 56, №5. С. 609-614.
2016	Genetic diversity of aboriginal and invasive populations of four-eyed fir bark beetle Polygraphus proximus Blandford (Coleoptera, Curculionidae, Scolytinae) Alexandr Kononov, Kirill Ustyantsev, Alexandr Blinov, Victor Fet, Yuri N. Baranchikov AGR FOREST ENTOMOL, 2016, DOI: 10.1111/afe.12161
	Genetic diversity among eight Dendrolimus species in Eurasia (Lepidoptera: Lasiocampidae) inferred from mitochondrial COI and COII, and nuclear ITS2 markers Alexander Kononov, Kirill Ustyantsev, Baode Wang, Victor C Mastro, Victor Fet, Alexander Blinov, Yuri Baranchikov BMC GENET, 2016, 3, 17, 173
2015	Convergent evolution of ribonuclease H in LTR retrotransposons and retroviruses Kirill Ustyantsev, Olga Novikova, Alexander Blinov and Georgy Smyshlyaev MOL BIOL EVOL, 2015
2010	Анализ вырожденных олигонуклеотидных мотивов в промоторах генов миРНК, экспрессирующихся в различных тканях млекопитающих О.В.Вишневский, К.В.Гунбин, А.В.Бочарников, Е.В.Березиков Вестник МГУ, 2010, No. 4, pp. 73–75
2008	dUTPase-содержащие Metaviridae LTR ретротранспозоны из генома Phanerochaete chrysosporium (Fungi: Basidiomycota) Новикова ОС, Блинов АГ Doklady Biochemistry and Biophysics, 2008, Т. 420, С. 699-702
	Novel clades of chromodomain-containing Gypsy LTR retrotransposons from mosses (Bryophyta) Novikova O, Mayorov V, Smyshlyaev G, Fursov M, Adkison L, Pisarenko O, Blinov A PLANT J, 2008, V. 56, P. 562-574
2007	CR1 clade of non-LTR retrotransposons from Maculinea butterflies (Lepidoptera: Lycaenidae): evidence for recent horizontal transmission Novikova O, Sliwinska E, Fet V, Settele J, Blinov A, Woyciechowski M BMC EVOL BIOL, 2007, V. 7, P. 93
	LTR РЕТРОТРАНСПОЗОНЫ ИЗ ГЕНОМОВ Aspergillus fumigatus И Aspergillus nidulans. О. Новикова, В. Фет, А. Блинов Molecular Biology, 2007, Т. 41, С. 830-838
	Molecular phylogeny of the genus Triticum L K. A. Golovnina, S. A. Glushkov, A. G. Blinov, V. I. Mayorov, L. R. Adkison and N. P. Goncharov PLANT SYST EVOL, 2007, V. 264, P. 195-216
	Vasa-related genes and their expression in stem cells of colonial parasitic rhizocephalan barnacle Polyascus polygenea (Arthropoda: Crustacea: Cirripedia: Rhizocephala) Shukalyuk A.I., Golovnina K.A., Baiborodin S.I., Gunbin K.V., Blinov A.G., Isaeva V.V. CELL BIOL INT, 2007, 31(2):97-108
	ГОМОЛОГ-ЗАВИСИМАЯ ИНАКТИВАЦИЯ LTR РЕТРОТРАНСПОЗОНОВ В ГЕНОМАХ Aspergillus fumigatus И A. Nidulans О. Новикова, В. Фет, А. Блинов Molecular Biology, 2007, Т. 41, С. 973-981
2006	Divergent non-LTR retrotransposon lineages from the genomes of scorpions (Arachnida: Scorpiones) Glushkov S., Novikova O., Blinov A., Fet V. MOL GENET GENOMICS, 2006, V. 275. P. 288-296.
	Molecular phylogeny of Palaearctic genera of Gomphocerinae grasshoppers (Orthoptera, Acrididae) Bugrov A., Novikova O., Mayorov V., Adkison L., Blinov A. SYST ENTOMOL, 2006, V. 31. P. 362-368.
	Synthtic species are donors to increase wheat biodiversityn N.P. Goncharov, E.Ja. Kondratenko, M.A. Khrabrova, A.A. Konovalov, L.I. Laikova, A.G. Blinov, K.A. Golovnina, S.A. Glushkov Агромеридиан., 2006, V. 3(4), P.86-91.

Accounting System of Scientific Activity (ASSA)

Sector of Molecular Mechanisms of Repair

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