Gareev, Ilgiz,
Beylerli, Ozal,
Tamrazov, Rasim,
Ilyasova, Tatiana,
Shumadalova, Alina,
Du, Weijie,
Yang, Baofeng (2023) on micro
RNA (mi
RNA)-based therapy. MiRNAs possess the ability to function as suppressors of tumor growth
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
Beylerli, Ozal,
Tamrazov, Rasim,
Gareev, Ilgiz,
Ilyasova, Tatiana,
Shumadalova, Alina,
Bai, Yunlong,
Yang, Baofeng (2023) and therapeutic targets. Exosomal ncRNAs are small
RNA molecules that are secreted by cells and transported
Beylerli, Ozal,
Ju, Jiaming,
Beilerli, Aferin,
Gareev, Ilgiz,
Shumadalova, Alina,
Ilyasova, Tatiana,
Bai, Yunlong,
Yang, Baofeng (2023) noncoding RNAs (lncRNAs) are a new class of noncoding
RNA (ncRNAs) with a length exceeding 200 nt, which
Beylerli, Ozal,
Shi, Huaizhang,
Begliarzade, Sema,
Shumadalova, Alina,
Ilyasova, Tatiana,
Sufianov, Albert (2024) , unveiling opportunities for intervention and prevention. The analysis of nc
RNA expression in bodily fluids
Sun, Pengfei,
Wang, Jiaqi,
Ilyasova, Tatiana,
Shumadalova, Alina,
Agaverdiev, Murad,
Wang, Chunlei (2023) binding to complementary target sequences within messenger
RNA (m
RNA) molecules, consequently exerting a
Begliarzade, Sema,
Sufianov, Albert,
Ilyasova, Tatiana,
Shumadalova, Alina,
Sufianov, Rinat,
Beylerli, Ozal,
Yan, Zhongrui (2024) Circular
RNA in cervical cancer: Fundamental mechanism and clinical potential
Beylerli, Ozal,
Beilerli, Aferin,
Ilyasova, Tatiana,
Shumadalova, Alina,
Shi, Huaizhang,
Sufianov, Albert (2024) Circular RNAs (circRNAs) is a fascinating covalently closed circular non-coding
RNAGareev, Ilgiz,
de Jesus Encarnacion Ramirez, Manuel,
Goncharov, Evgeniy,
Ivliev, Denis,
Shumadalova, Alina,
Ilyasova, Tatiana,
Wang, Chunlei (2023) by targeting m
RNA at the post-transcriptional level, while lncRNAs function as competing RNAs, blocking
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 mi
RNA expression in both CSF