Gareev, Ilgiz,
Beylerli, Ozal,
Tamrazov, Rasim,
Ilyasova, Tatiana,
Shumadalova, Alina,
Du, Weijie,
Yang, Baofeng (2023) on micro
RNA (
miRNA)-based therapy.
MiRNAs possess the ability to function as suppressors of tumor growth
Sun, Pengfei,
Wang, Jiaqi,
Ilyasova, Tatiana,
Shumadalova, Alina,
Agaverdiev, Murad,
Wang, Chunlei (2023) emerged as a key area of interest regarding
miRNA function. Intriguingly, recent investigations have
, suggesting that targeted manipulation of these
miRNA pathways could offer new strategies for CVD treatment
of methyl groups to CpG islands in the promoter regions of
miRNA genes, can result in either gene silencing
Jiang, Jianhao,
Gareev, Ilgiz,
Ilyasova, Tatiana,
Shumadalova, Alina,
Du, Weijie,
Yang, Baofeng (2024) -established ce
RNA networks, involving classical interactions between lncRNAs, microRNAs (
miRNAs), and messenger
methods for diagnosing gliomas, including the search for novel biomarkers. Micro
RNA (
miRNAs), a class
Beylerli, Ozal,
Shi, Huaizhang,
Begliarzade, Sema,
Shumadalova, Alina,
Ilyasova, Tatiana,
Sufianov, Albert (2024) (ncRNAs), specifically microRNAs (
miRNAs) and long non-coding RNAs (lncRNAs), present promising
Gareev, Ilgiz,
de Jesus Encarnacion Ramirez, Manuel,
Goncharov, Evgeniy,
Ivliev, Denis,
Shumadalova, Alina,
Ilyasova, Tatiana,
Wang, Chunlei (2023) the binding of
miRNAs to m
RNA. This review provides an overview of the regulatory role of
miRNAs and lnc
Sufianov, Albert,
Begliarzade, Sema,
Kudriashov, Valentin,
Nafikova, Radmila,
Ilyasova, Tatiana,
Liang, Yanchao (2023) mechanism of
miR-126 and
miR-17/92 families in vascular endothelial cells, as well as the
miR-143/145 family
Beylerli, Ozal,
Encarnacion Ramirez, Manuel de Jesus,
Shumadalova, Alina,
Ilyasova, Tatiana,
Zemlyanskiy, Mikhail,
Beilerli, Aferin,
Montemurro, Nicola (2023) . Numerous investigations have showcased the viability of profiling cell-free
miRNA expression in both CSF