ЭПИГЕНЕТИКА АГРЕССИВНОГО ПОВЕДЕНИЯMUSTAFIN, R.N.,
KHUSNUTDINOVA, E.K.,
KAZANTSEVA, A.V.,
ENIKEEVA, R.F.,
DAVYDOVA, Y.D.,
KARUNAS, A.S.,
MALYKH, S.B.,
МУСТАФИН Р. Н.,
КАЗАНЦЕВА А.В.,
ЕНИКЕЕВА Р.Ф.,
ДАВЫДОВА Ю.Д.,
КАРУНАС А.С.,
МАЛЫХ С.Б.,
ХУСНУТДИНОВА Э.К. (2019) methylation and
histone modifications, which disrupt expression of neurotransmitter genes with a long
Функциональный дуализм транскриптов транспозонов в эволюции геномов эукариот,
histone modifications, the relationship of telomeres with transposons, splicing regulation, and RNA
, inhibitors of DNA methyltransferase*,
histone deacetylase* and
histone methyltransferase* are used
Enikeeva, Kadriia,
Rafikova, Guzel,
Sharifyanova, Yuliya,
Mulyukova, Diana,
Vanzin, Alexandr,
Pavlov, Valentin (2024) such as CpG island methylation,
histone modification, and microRNAs as biomarkers will improve the diagnosis
activity of
histone acetylases in the IL-6 promoter area. In contrast, the expression of anti
ЭПИГЕНЕТИЧЕСКИЕ МЕХАНИЗМЫ ПАТОГЕНЕЗА РАССЕЯННОГО СКЛЕРОЗАVAKHITOV, V.A.,
KUZMINA, U.S.,
ZAINULLINA, L.F.,
MAKSIMOVA, M.A.,
ZILEEVA, Z.R.,
VAKHITOVA, Y.V.,
BAKHTIYAROVA, K.Z.,
ВАХИТОВ В.А.,
КУЗЬМИНА У.Ш.,
БАХТИЯРОВА К.З.,
ЗАЙНУЛЛИНА Л.Ф.,
МАКСИМОВА М.А.,
ЗИЛЕЕВА З.Р.,
ВАХИТОВА Ю.В. (2020) mechanisms regulating gene expression, such as DNA methylation,
histone acetylation, and microRNAs, play