YANG, L,
LI, Y,
GONG, R,
GAO, M.Q.,
FENG, C,
LIU, T.Y.,
SUN, Y,
JIN, M.Y.,
WANG, D.W.,
YUAN, Y,
YAN, G.G.,
HE, M.Y.,
IDIYATULLINA, E.T.,
MA, W.Y.,
HAN, Z.B.,
ZHANG, L,
HUANG, Q.,
DING, F.Z.,
CAI, B.Z.,
CAI, B.Z.,
YANG, F. (2019) THE
LONG NON-CODING RNA-ORLNC1 REGULATES BONE MASS BY DIRECTING MESENCHYMAL STEM CELL FATE
Beilerli, A.,
Gareev, I.,
Beylerli, O.,
Yang, G.,
V.N. Pavlov,
Aliev, G.,
Ahmad, A. (2022) Circular RNAs (circRNAs) are a class of single-stranded closed
non-coding RNA molecules (nc
Gareev, Ilgiz,
de Jesus Encarnacion Ramirez, Manuel,
Goncharov, Evgeniy,
Ivliev, Denis,
Shumadalova, Alina,
Ilyasova, Tatiana,
Wang, Chunlei (2023) have identified microRNAs (miRNAs) and
long non-coding RNAs (lncRNAs) as key players in controlling
МЕХАНИЗМЫ ВОЗНИКНОВЕНИЯ И ЭВОЛЮЦИИ БЕЛОК-КОДИРУЮЩИХ ГЕНОВBASIC MECHANISMS OF THE ORIGIN AND EVOLUTION OF PROTEIN-
CODING GENES
Yuan, Yue,
Han, Xuejie,
Zhao, Xinbo,
Zhang, Haiyu,
Vinograd, Asiia,
Bi, Xin,
Duan, Xiaoxu,
Cao, Yukai,
Gao, Qiang,
Song, Jia,
Sheng, Li,
Li, Yue (2024) . Accumulating evidence has indicated that circulating exosomes and their carried cargoes, such as
long non-codingGAREEV, I.F.,
BEILERLI, O.A.,
ALIEV, G.M.,
PAVLOV, VALENTIN,
IZMAILOV, ADEL,
ZHANG, YIWEI,
LIANG, YANCHAO,
YANG, GUANG (2020) are still under study.
Long non-coding RNAs (lncRNAs) are
non-coding RNAs that typically have a length
with circular RNAs (miR-495,-576,-579,-630,-633,-637,-942) and
long non-coding RNAs (miR-326
Sufianov, A.,
Kostin, A.,
Begliarzade, S.,
Kudriashov, V.,
Ilyasova, T.,
Liang, Y.,
Mukhamedzyanov, A.,
Beylerli, O. (2023) and organs. The content of exosomes depends on the cell type and includes m
RNA,
non-coding RNAs, DNA, and so