ICG  

Accounting System of Scientific Activity (ASSA)

      

Natalya SHatskaya

Department: Sector for Genomic Studies
Room: 2211, 2208
Email: shatskaya@bionet.nsc.ru
Work phone: +7 (383) 363-49-63*2208


Publications

2023 Cases of paternal inheritance and recombination of mitochondrial DNA in peas (Pisum L.)
Bulgakova (Bogdanova) V.S., Shatskaya N.V., Kosterin O.E., Vasiliev G.V.
[EUPHYTICA]
Drosophila melanogaster Transcriptome Response to Different Wolbachia Strains
Gruntenko, N.E.; Deryuzhenko, M.A.; Andreenkova, O.V.; Shishkina, O.D.; Bobrovskikh, M.A.; Shatskaya, N.V.; Vasiliev, G.V.
[INT J MOL SCI]
New insights into plastid and mitochondria evolution in wild peas (Pisum L.)
Shatskaya N.V., Bogdanova V.S., Kosterin O.E., Vasiliev G.V.
[Diversity]
Three Cycles of Continuous Propagation of a Severe PSTVd Strain NicTr-3 in Solanum lycopersicum cv. Rutgers Resulted in Its Attenuation and Very Mild Disease Symptoms in Potato
Alex V. Kochetov, Nikolay Shmakov, Dmitry A. Afonnikov, Gennady V. Vasiliev, Natalja V. Shatskaya, Anastasiya A. Egorova, Nina V. Mironenko, Nina M. Lashina, Alexander V. Khiutti and Olga S. Afanasenko
[Agronomy]
2022 Easy and Effective Method for Extracting and Purifying Wolbachia Genomic DNA
Andreenkova O.V., Shishkina O.D., Klimenko A.I., Korenskaia A.E., Bobrovskikh M.A., Shatskaya N.V., Vasiliev G.V., Gruntenko N.E.
[INT J MOL SCI]
Features of activity of the phenylpropanoid biosynthesis pathway in melanin-accumulating barley grains
Anastasiia Y. Glagoleva, Alexander V. Vikhorev, Nikolay A. Shmakov, Sergey V. Morozov, Elena I. Chernyak, Gennady V. Vasiliev, Natalia V. Shatskaya, Elena K. Khlestkina, Olesya Y. Shoeva
[Frontiers in Plant Science]
New Wolbachia pipientis Genotype Increasing Heat Stress Resistance of Drosophila melanogaster Host Is Characterized by a Large Chromosomal Inversion
Korenskaia A.E., Shishkina O.D., Klimenko A.I., Andreenkova O.V., Bobrovskikh M.A., Shatskaya N.V., Vasiliev G.V., Gruntenko N.E.
[INT J MOL SCI]
2021 Discordant evolution of organellar genomes in peas (Pisum L.)
Bogdanova V.S., Shatskaya N.V., Mglinets a.v., Kosterin O.E., Vasiliev G.V.
[MOL PHYLOGENET EVOL]
NLR Genes Related Transcript Sets in Potato Cultivars Bearing Genetic Material of Wild Mexican Solanum Species
Kochetov A.V., Afonnikov D.A., Shmakov N.A., Vasiliev G.V., Antonova O.Y., Shatskaya N.V., Glagoleva A.Y., Ibragimova S.M., Khiutti A., Afanasenko O.S., Gavrilenko T.A.
[Agronomy]
The pathogenic potential of the combined action of chronic Opisthorchis felineus infection and repeated social defeat stress in C57BL/6 mice.
Damira Avgustinovich, Anna Kovner, Elena Kashina, Natalia Shatskaya, Galina Vishnivetskaya, Natalia Bondar, Maria Lvova
[INT J PARASITOL]
Вироид веретеновидности клубней картофеля
Кочетов, А. В., Пронозин, А. Ю., Шацкая, Н. В., Афонников, Д. А., Афанасенко, О. С.
[Vavilov journal of genetics and breeding]
Секвенирование вироидов.
Шацкая Н.В.
[Письма в Вавиловский журнал генетики и селекции]
2020 The mechanism of potato resistance to Globodera rostochiensis: comparison of root transcriptomes of resistant and susceptible Solanum phureja genotypes
Alex V. Kochetov, Anastasiya A. Egorova, Anastasiya Y. Glagoleva, Kseniya V. Strygina, Elena K. Khlestkina, Sophia V. Gerasimova, Natalja V. Shatskaya, Gennady V. Vasilyev, Dmitry A. Afonnikov, Nikolay A. Shmakov, Olga Y. Antonova, Natalia V. Alpatyeva, Alexander Khiutti, Olga S. Afanasenko and Tatjana A. Gavrilenko
[BMC PLANT BIOL]
2019 Diversity of mariner-like elements in Orthoptera
K. Ustyantsev, M. Biryukov, I. Sukhikh, N.V. Shatskaya, V. Fet, A. Blinov, I. Konopatskaia
[Vavilov journal of genetics and breeding]
The plastid and mitochondrial genomes of Vavilovia formosa (Stev.) Fed. and the phylogeny of related legume genera
Shatskaya N.V., Bogdanova V.S., Kosterin O.E., Vasiliev G.V., Kimeklis A.K., Andronov E.E., Provorov E.A.
[Vavilov journal of genetics and breeding]
2018 Cryptic divergences in the genus Pisum L. (peas), as revealed by phylogenetic analysis of plastid genomes
Bogdanova V.S., Mglinets A.V., Shatskaya N.V., Kosterin O.E., Solovyev V.I., Vasiliev G.V.
[MOL PHYLOGENET EVOL]
2017 Differential expression of NBS-LRR-encoding genes in the root transcriptomes of two Solanum phureja genotypes with contrasting resistance to Globodera rostochiensis
Alex V. Kochetov, Anastasiya Y. Glagoleva, Kseniya V. Strygina, Elena K. Khlestkina, Sophia V. Gerasimova, Salmaz M. Ibragimova, Natalja V. Shatskaya, Gennady V. Vasilyev, Dmitry A. Afonnikov, Nikolay A. Shmakov, Olga Y. Antonova, Tatyana A. Gavrilenko, Natalia V. Alpatyeva, Alexander Khiutti, Olga S. Afanasenko
[BMC PLANT BIOL]
Efficient inhibition of influenza A viral replication in cells by deoxyribozymes delivered by nanocomposites
Marina Repkova, Asya Levina, Boris Chelobanov, Zinfer Ismagilov ,Natalia Shatskaya , Sergei Baiborodin , Ekaterina Filippova , Natalia Mazurkova , Valentina Zarytova ,
[INT J ANTIMICROB AG]
Metabolic pathways and genes identified by RNA-seq analysis of barley near-isogenic lines differing by allelic state of the Black lemma and pericarp (Blp) gene
Anastasiya Y. Glagoleva, Nikolay A. Shmakov, Olesya Y. Shoeva, Gennady V. Vasiliev, Natalia V. Shatskaya, Andreas Börner, Dmitry A. Afonnikov, Elena K. Khlestkina
[BMC PLANT BIOL]
RNAseq-BASED DECIFERING OF MOLECULAR MECHANISMS UNDERLYING TRAIT FORMATION: NON-ALTERNATIVE WAY IN CASE OF IMPEDED METABOLITE IDENTIFICATION
Glagoleva A.Y., Shmakov N.A., Shoeva O. Y., Vasiliev G.V., Shatskaya N.V., Börner A., Afonnikov D.A., Khlestkina E.K.
[Acta Naturae]
2016 Identification of nuclear genes controlling chlorophyll synthesis in barley by RNA-seq
Shmakov N.A., Vasiliev G.V., Shatskaya N.V., Doroshkov A.V., Gordeeva E.I., Afonnikov D.A., Khlestkina E.K.
[BMC PLANT BIOL]
2015 Nuclear-cytoplasmic conflict in pea (Pisum sativum L.) is associated with nuclear and plastidic candidate genes encoding Acetyl-CoA carboxylase subunits
Bogdanova V.S., Zaytseva O.O., Mglinets A.V., Shatskaya N.V., Kosterin O.E., Vasiliev G.V.
[PloS One]
SiO2 nanoparticles as platform for delivery of 3'-triazole analogues of AZT-triphosphate into cells
Vasilyeva, S.V., Levina, A.S., Li-Zhulanov, N.S., Shatskaya, N.V., Baiborodin, S.I., Repkova, M.N., Zarytova, V.F., Mazurkova, N.A., Silnikov, V.N.
[Bioorganic and Medicinal Chemistry]
2014 TiO2 ~deoxyribozyme nanocomposites as delivery system and efficient site-specific agents for cleavage of RNA targets.
Levina A. S., Repkova M. N., Shikina N. V., Ismagilov Z. R., Shatskaya N. V., Zarytova V. F
[Drug Delivery Lett]
2013 Delivery of Bleomycin A5 into Cells Using TiO2 Nanoparticles to Enhance the Degradation of Intracellular DNA
N. V. Shatskaya, A. S. Levina, M. N. Repkova, S. I. Baiborodin, N. V. Shikina, Z. R. Ismagilov, and V. F. Zarytova*
[Nanotechnologies in Russia, 2013]
Delivery of bleomycin A5 into cells using TiO2 nanoparticles to enhance the degradation of intracellular DNA.
Shatskaya N. V, Levina A. S., Repkova M. N., Baiborodin S. I., Shikina N. V., Ismagilov Z. R., Zarytova V. F
[Nanotechnologies in Russia]
Design of TiO2~DNA Nanocomposites for Penetration into Cells.
Levina A. S., Ismagilov Z. R., Repkova M. N., Shikina N.V., Baiborodin S. I., Shatskaya N. V., Zagrebelnyi S. N., Zarytova V. F.
[RUSS J BIOORG CHEM+]
SiO2 nanoparticles as platform for delivery of nucleoside triphosphate analogues into cells.
Vasilyeva S.V., Silnikov V. N., Shatskaya N. V, Levina A. S., Repkova M.N., Zarytova V.F.
[Bioorganic & Medicinal Chemistry]
Создание TiO2-DNA-нанокомпозитов, способных проникать в клетки.
Левина А.С.,Исмагилов З.Р.,Репкова М.Н.,Шикина Н.В., Байбородин С.И.,Шацкая Н.В.,Загребельный С.Н., Зарытова В.Ф.
[Биоорганическая химия]
2012 Nanocomposites consisting of titanium dioxide nanoparticles and oligonucleotides.
Levina A, Ismagilov Z, Repkova M, Shatskaya N, Shikina N, Tusikov F, Zarytova V.
[J NANOSCI NANOTECHNO]
2008 High-affinity cation binding to organic cation transporter 1 induces movement of helix 11 and blocks transport after mutations in a modeled interaction domain between two helices.
Gorbunov D, Gorboulev V, Shatskaya N, Mueller T, Bamberg E, Friedrich T, Koepsell H.
[MOL PHARMACOL]
2005 Amino acids critical for substrate affinity of rat organic cation transporter 1 line the substrate binding region in a model derived from the tertiary structure of lactose permease.
Popp C, Gorboulev V, Müller TD, Gorbunov D, Shatskaya N, Koepsell H.
[MOL PHARMACOL]
Subtype-specific affinity for corticosterone of rat organic cation transporters rOCT1 and rOCT2 depends on three amino acids within the substrate binding region.
Gorboulev V, Shatskaya N, Volk C, Koepsell H.
[MOL PHARMACOL]
2002 Identification of genetic variations of the human organic cation transporter hOCT1 and their functional consequences.
Kerb R, Brinkmann U, Chatskaia N, Gorbunov D, Gorboulev V, Mornhinweg E, Keil A, Eichelbaum M, Koepsell H.
[PHARMACOGENETICS]
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