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Publications
2024 |
Detection of ER stress in iPSC-derived neurons carrying the p.N370S mutation in the GBA1 gene
Yarkova E.S., Grigor’eva E.V., Medvedev S.P., Tarasevich D.A., Pavlova S.V., Valetdinova K.R., Minina J.M., Zakian S.M., Malakhova A.A.
[Biomedicines]
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Generation of iPSCs from a patient with the M694V mutation in the MEFV gene associated with Familial Mediterranean fever and their differentiation into macrophages
Grigor’eva E.V., Karapetyan L.V., Malakhova A.A., Medvedev S.P., Minina J.M., Hayrapetyan V.H., Vardanyan V.S., Zakian S.M., Arakelyan A., Zakharyan R.
[INT J MOL SCI]
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2023 |
An Induced Pluripotent Stem Cell Line (ICGi023-A) Obtained from a Patient with Parkinson’s Disease Associated Polymorphisms in LRRK2 and PINK1 Genes
Malakhova A.A., Pavlova S.V., Grigor’eva E.V., Medvedev S.P., Minina J.M., Vyatkin Y.V., Khabarova E.A., Rzaev J.A., Kovalenko L.V., Zakian S.M.
[RUSS J DEV BIOL+]
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Generation of an Induced Pluripotent Stem Cell Line ICGi046-A
of a Patient Carrying Pathogenic p.Ser259Thr Variant
in RAF1 Associated with RASopathy
E. V. Dementyeva, E. S. Klimenko, J. M. Minina, S. M. Zakian, and A. A. Kostareva
[RUSS J DEV BIOL+]
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Generation of an Induced Pluripotent Stem Cell Line, ICGi042-A, by Reprogramming Peripheral Blood Mononuclear Cells from a Parkinson’s Disease Patient with c.1000G>A Mutation in the LRRK2 Gene
Grigor’eva E.V., Pavlova S.V., Malakhova A.A., Medvedev S.P., Minina J.M., Vyatkin Y.V., Khabarova E.A., Rzaev J.A., Kovalenko L.V., Zakian S.M.
[RUSS J DEV BIOL+]
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The Application of CRISPR/Cas9 Technology in Mice Zygotes to Obtain Duplications, Deletions and Inversions Affects Karyotype Stability
Yu. M. Minina, A. B. Soroka, T. V. Karamysheva, N. A. Serdyukova, and O. L. Serov
[Cell and Tissue Biology]
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Линия индуцированных плюрипотентных стволовых клеток ICGi023-A, полученная от пациента с полиморфизмами в генах LRRK2 и PINK1, ассоциириванными с болезнью Паркинсона
Малахова А.А., Павлова С.В., Григорьева Е.В., Медведев С.П., Минина Ю.М., Вяткин Ю.В., Хабарова Е.А., Рзаев Д.А., Коваленко Л.В., Закиян С.М.
[Онтогенез]
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Создание линии индуцированных плюрипотентных стволовых клеток ICGi042-A с помощью репрограммирования мононуклеарных клеток периферической крови пациента с болезнью Паркинсона, ассоциированной с мутацией c.1000G>A в гене LRRK2
Григорьева Е.В., Павлова С.В., Малахова А.А., Медведев С.П., Минина Ю.М., Вяткин Ю.В., Хабарова Е.А., Рзаев Дж.А., Коваленко Л.В., Закиян С.М.
[Онтогенез]
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Создание линии индуцированных плюрипотентных стволовых клеток ICGi043-A с помощью репрограммирования мононуклеарных клеток периферической крови пациента с болезнью Паркинсона, ассоциированной с патологическим вариантом p.G2019S LRRK2
Григорьева Е.В., Павлова С.В., Малахова А.А., Яркова Е.С., Сорогина Д.А., Минина Ю.М., Милюхина И.В., Николаев Н.А., Пчелина С.Н., Медведев С.П., Закиян С.М.
[Онтогенез]
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2022 |
Generation of iPS cell line (ICGi040-A) from skin fibroblasts of a patient with ring small supernumerary marker chromosome 4
M.M.Gridina, A.R.Nurislamov, J.M.Minina, M.E.Lopatkina, G.V.Drozdov, S.A.Vasilyev, L.I.Minaycheva, E.O.Belyaeva, T.V.Nikitina, A.A.Kashevarova, I.N.Lebedev, T.V.Karamysheva, N.B.Rubtsov, O.L.Serov
[STEM CELL RES]
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2021 |
Complex biology of constitutional ring chromosomes structure and (in)stability revealed by somatic cell reprogramming
T V Nikitina, A A Kashevarova, M M Gridina, M E Lopatkina, A A Khabarova, Yu S Yakovleva, A G Menzorov, Yu A Minina, I E Pristyazhnyuk, S A Vasilyev, D A Fedotov, O L Serov, I N Lebedev
[SCI REP-UK]
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Derivation of iPS cell line (ICGi032-A) from a patient affected with fragile X syndrome.
Gridina MM, Shitik EM, Lemskaya NA, Minina JM, Grishchenko IV, Dolskiy AA, Shorina AR, Maksimova YV, Yudkin DV.
[STEM CELL RES]
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2020 |
A Human Induced Pluripotent Stem Cell-Derived
Isogenic Model of Huntington’s Disease Based on
Neuronal Cells Has Several Relevant
Phenotypic Abnormalities
Tuyana Malankhanova, Lyubov Suldina, Elena Grigor'eva, Sergey Medvedev, Julia Minina, Ksenia Morozova, Elena Kiseleva, Suren Zakian, Anastasia Malakhova
[J. Pers. Med]
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Establishment of an induced pluripotent stem cell line (ICGi025-A) from fibroblasts of a patient with 46,XY,r(8)/45,XY,–8 mosaicism
M.M.Gridina, T.V.Nikitina, P.A.Orlova, J.M.Minina, A.A.Kashevarova, Yu.S.Yakovleva, M.E.Lopatkina, S.A.Vasilyev, D.A.Fedotov, L.I.Mikhailik, L.P.Nazarenko, I.N.Lebedev, O.L.Serov
[STEM CELL RES]
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Establishment of an induced pluripotent stem cell line (ICGi026-A) from peripheral blood mononuclear cells of a patient with fragile X syndrome
M M Gridina, P A Orlova, J M Minina, E M Shitik, N A Lemskaya, I V Grishchenko, A A Dolskiy, A R Shorina, Y V Maksimova, D V Yudkin, O L Serov
[STEM CELL RES]
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Generation of GABAergic striatal neurons by a novel iPSC differentiation protocol enabling scalability and cryopreservation of progenitor cells
Grigor’eva E.V., Malankhanova T.B., Surumbayeva A., Pavlova S.V., Minina J.M., Kizilova E.A., Suldina L.A., Morozova K.N., Kiseleva E., Sorokoumov E.D., Lebedev I.N., Zakian S.M, Malakhova A.A.
[CYTOTECHNOLOGY]
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2019 |
Dysfunction telomeres in embryonic fibroblasts and cultured in vitro pluripotent stem cells of Rattus norvegicus (Rodentia, Muridae)
Zhdanova NS, Vaskova EA, Karamysheva TV, Minina JM, Rubtsov NB, Zakian SM
[COMP CYTOGENET]
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Generation of induced pluripotent stem cell line, ICGi007-A, by reprogramming peripheral blood mononuclear cells from a patient with Huntington’s disease
Grigor’eva E.V., Malankhanova T.B., Surumbayeva A., Minina J.M., Morozov V.V., Abramycheva N.Yu., Illarioshkin S.N., Malakhova A.A., Zakian S.M.
[STEM CELL RES]
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Generation of two iPSC lines (ICGi008-A and ICGi008-B) from skin fibroblasts of a patient with early-onset Alzheimer’s disease caused by London familial APP mutation (V717I)
Grigor’eva E.V., Malankhanova T.B., Ustyantseva E.I., Minina J.M., Redina O.E., Morozov V.V., Shevela A.I., Zakian S.M, Medvedev S.P.
[STEM CELL RES]
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Generation of two spinal muscular atrophy (SMA) type I patient-derived induced pluripotent stem cell (iPSC) lines and two SMA type II patientderived iPSC lines
Valetdinova K.R., Maretina M.A., Kuranova M.L., Grigor’eva E.V., Minina Y.M., Kizilova E.A., Kiselev A.V., Medvedev S.P., Baranov V.S., Zakian S.M.
[STEM CELL RES]
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Platform for studying neurodegeneration mechanisms using genetically encoded biosensors
Ustyantseva E.I., Medvedev S.P., Vetchinova A.S., Minina J.M., Illarioshkin S. N., Zakian S.M.
[BIOCHEMISTRY-MOSCOW+]
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Time origin and structural analysis of the induced CRISPR/cas9 megabase-sized deletions and duplications involving the Cntn6 gene in mice.
Inna E. Pristyazhnyuk, Julia Minina, Alexey Korablev, Irina Serova, Veniamin Fishman, Maria Gridina, Timofey S. Rozhdestvensky, Leonid Gubar, Boris V. Skryabin, and Oleg L. Serov
[SCI REP-UK]
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Происхождение и судьба масштабных хромосомных перестроек, индуцированных технологией CRISPR/Cas9 у мышей: от зигот до соматических клеток
Алексей Николаевич Кораблев, Инна Евгеньевна Пристяжнюк, Юлия Михайловна Минина, Ирина Александровна Серова, Вениамин Семенович Фишман, Мария Михайловна Гридина, Timofey Rozhdestvensky, Leonid Gubar, Boris Skryabin, Олег Леонидович Серов
[Гены и клетки]
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2018 |
Replication timing of large Sorex granarius (Soricidae, Eulipotyphla) telomeres.
Minina J.M., Karamysheva T.V., Rubtsov N.B., Zhdanova N.S.. ;
[PROTOPLASMA]
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2015 |
Transcriptome characteristics and X-chromosome inactivation status in cultured rat pluripotent stem cells
Vaskova E.A., Medvedev S.P., Sorokina A.E., Nemudryy A.A., Elisaphenko E.A., Zakharova I.S., Shevchenko A.I., Kizilova E.A., Zhelezova A.I., Evshin I.S., Sharipov R.N., Minina J.M., Zhdanova N.S., Khegay I.I., Kolpakov F.A., Sukhikh G.T., Pokushalov E.A., Karaskov A.M., Vlasov V.V. Ivanova L.N., Zakian S.M.
[STEM CELLS DEV]
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2014 |
Recombinogenic Telomeres in Diploid Sorex granarius (Soricidae, Eulipotyphla) Fibroblast Cells.
N. S. Zhdanova, I. Draskovic, J. M. Minina, T. V Karamysheva, C. L. Novo, W.-Y. Liu, R. M. Porreca, A. Gibaud, M. E. Zvereva, D. A. Skvortsov, N. B. Rubtsov and A. Londoño-Vallejo.
[MOL CELL BIOL]
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2012 |
Биология теломер млекопитающих
Н.С. Жданова, Ю.М. Минина, Н.Б. Рубцов
[Molecular Biology]
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2011 |
Derivation, characterization, and stable transfection of induced pluripotent stem cells from Fischer344 rats
Mikhail Liskovykh, Ilya Chuykin, Ashish Ranjan, Dina Safina, Elena Popova, Elena Tolkunova, Valentina Mosienko, Julia Minina, Natalia Zhdanova, John J. Mullins, Michael Bader, Natalia Alenina, and Alexey Tomilin
[PloS One]
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Получение индуцированных плюрипотентных стволовых (иПС) клеток крысы: анализ условий репрограммирования и культивирования.
Лисковых М.А., Чуйкин И., Ранян А., Сафина Д.А., Толкунова Е.Н., Минина Ю.М., Жданова Н.С., Дыбан П.А., Маллинс Дж., Костылева Е.И., Чихиржина Е.В., Бадер М., Аленина Н., Томилин А.Н.
[Cell and Tissue Biology]
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2010 |
The Structure of Long Telomeres in Chromosomes of the Iberian Shrew
Zhdanova N.S., Minina Yu.M., Karamisheva T.V., Rubtsov N.B., Londono-Vallejo J-A.
[RUSS J GENET+]
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Нестабильность хромосомного состава культивируемых in vitro плюрипотентных клеток мыши
Минина Ю. М., Жданова Н. С, Шилов А. Г., Толкунова Е. Н., Лисковых М. А., Томилин А. Н.
[Cell and Tissue Biology]
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2009 |
Telomeric DNA Allocation in Chromosomes of Common Shrew (Sorex araneus, Eulipotyphla)
N. S. Zhdanova, Y. I. Rogozina, Y. M. Minina, P. M. Borodin, and N. B. Rubtsov
[Cell and Tissue Biology]
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2008 |
Трехмерная организация интерфазных ядер фибробластов у двух близкородственных видов бурозубок, различающихся структурой терминальных районов хромосом
Н.Б. Рубцов, Т.В. Карамышева, Ю.М. Минина, Н.С. Жданова
[Cell and Tissue Biology]
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2007 |
Distribution of telomeric and ribosomal DNA on the chromosomes of two related species, Sorex araneus and Sorex granarius (Soricidae, Eulipotiphla)
N.S. Zhdanova, Y. Minina, T.V. Karamisheva, N.B. Rubtsov
[Russian J Theriology]
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Standard DAPI karyotype of the common shrew Sorex araneus L. (Soricidae, Eulipotyphla)
Minina J.M., Borodin P.M., Searle J.B., Volobouev V.T., Zhdanova N.S.
[Russian J Theriology]
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The very long telomeres in Sorex granarius (Soricidae, Eulipothyphla) contain ribosomal DNA
Zhdanova NS, Minina JM, Karamisheva TV, Draskovic I, Rubtsov NB, Londoсo-Vallejo JA.
[CHROMOSOME RES]
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Терминальные районы хромосом млекопитающих: эволюционный аспект. (Terminal regions of mammal chromosomes: Plasticity and role in evolution)
Жданова Н.С., Минина Ю.М., Рубцов Н.Б.
[RUSS J GENET+]
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2006 |
Identification of all pachytene bivalents in the common shrew using DAPI-staining of synaptonemal complex spreads
Belonogova NM, Karamysheva TV, Biltueva LS, Perepelov EA, Minina JM, Polyakov AV, Zhdanova NS, Rubtsov NB, Searle JB, Borodin PM
[CHROMOSOME RES]
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