Gilyazova, I.R.,
Ivanova, E.A.,
Bermisheva, M.A.,
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Khusnutdinova, E.K. (2022) of PTEN, rs17878362 of TP53, and rs2699887 of PIK3CA with the risk of prostate cancer
development. As a
between peptides, RNA, and DNA that provide the stability of the
development and functioning of tissues
THE ROLE OF MICROGLIA IN THE
DEVELOPMENT OF NEURODEGENERATION
Bikbova, M.M.,
Usubova, E.L.,
Oganisyana, K.Kh.,
Lobov, S.L.,
Khasanovad, R.R.,
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development is widely recognized. To date, a large number of candidate genes have been investigated
DAVYDOVA, YU. D.,
KAZANTSEVA, A. V.,
ENIKEEVA, R. F.,
MUSTAFIN, R.N.,
ENIKEEVA, R. F.,
LOBASKOVA, M. M.,
MALYKH, S. B.,
GILYAZOVA, I.R.,
KHUSNUTDINOVA, E.K. (2020) its binding to oxytocin receptor (OXTR). Considering the multifactorial nature of
developingNurgalieva, A.,
Galliamova, L.,
Ekomasova, N.,
Yankina, M.,
Sakaeva, D.,
Valiev, R.,
Prokofyeva, D.,
Dzhaubermezov, M.,
Fedorova, Y.,
Khusnutdinov, S.,
Khusnutdinova, E. (2023) of possible new candidate genes, associated with the increased risk of gastric cancer
development. Whole exome
. Several new concepts have been
developed to render photosensitive materials during the past decade