МЕХАНИЗМЫ ВОЗНИКНОВЕНИЯ И ЭВОЛЮЦИИ БЕЛОК-КОДИРУЮЩИХ ГЕНОВBASIC MECHANISMS OF THE ORIGIN AND EVOLUTION OF
PROTEIN-CODING GENES Beylerli, O.A.,
Azizova, S.T.,
Konovalov, N.A.,
Akhmedov, A.D.,
Gareev, I.F.,
Belogurov, A.A. (2020) 20,000
protein-coding genes covering near 2% of the total genomic sequence. The vast majority of
gene and their binding sites, noncoding RNAs and their targets in
protein-coding gene sequences evolutionarily originated
Ivanov, A.M.,
Gil'manov, A.Z.,
Malyutina, N.N.,
Khovaeva, Y.B.,
Nenasheva, O.Y.,
El'kin, G.I.,
Sosnin, D.Y. (2020) . Heterozygote state prevailed for
genes of methionine synthase reductase and folate transport
protein among
Длинные некодирующие РНК: какие перспективы?Large-scale genomic analysis has demonstrated the existence of many long non-
coding RNAs (lnc
GAREEV, 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
KURKINA, M.V.,
MIHAYLOVA, S.V.,
BAIDAKOVA, G.V.,
SAIFULLINA, E.V.,
KOROSTELEV, S.A.,
PYANKOV, D.V.,
KANIVETS, I.V.,
YUNIN, M.A.,
PECHATNIKOVA, N.L.,
ZAKHAROVA, E.YU (2020) ) (ICD-10
code: E72.3; MIM 231670) is an autosomal recessive disease caused by mutations in the
gene