Maxim A Skabkin
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Explore the profile of Maxim A Skabkin including associated specialties, affiliations and a list of published articles.
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12
Citations
2026
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Recent Articles
1.
Meyer K, Patil D, Zhou J, Zinoviev A, Skabkin M, Elemento O, et al.
Cell
. 2015 Nov;
163(4):999-1010.
PMID: 26593424
Protein translation typically begins with the recruitment of the 43S ribosomal complex to the 5' cap of mRNAs by a cap-binding complex. However, some transcripts are translated in a cap-independent...
2.
Muhs M, Hilal T, Mielke T, Skabkin M, Sanbonmatsu K, Pestova T, et al.
Mol Cell
. 2015 Jan;
57(3):422-32.
PMID: 25601755
The cricket paralysis virus (CrPV) uses an internal ribosomal entry site (IRES) to hijack the ribosome. In a remarkable RNA-based mechanism involving neither initiation factor nor initiator tRNA, the CrPV...
3.
Kumar P, Sweeney T, Skabkin M, Skabkina O, Hellen C, Pestova T
Nucleic Acids Res
. 2013 Dec;
42(5):3228-45.
PMID: 24371270
Ribosomal recruitment of cellular mRNAs depends on binding of eIF4F to the mRNA's 5'-terminal 'cap'. The minimal 'cap0' consists of N7-methylguanosine linked to the first nucleotide via a 5'-5' triphosphate...
4.
Skabkin M, Skabkina O, Hellen C, Pestova T
Mol Cell
. 2013 Jul;
51(2):249-64.
PMID: 23810859
During ribosome recycling, posttermination complexes are dissociated by ABCE1 and eRF1 into 60S and tRNA/mRNA-associated 40S subunits, after which tRNA and mRNA are released by eIF1/eIF1A, Ligatin, or MCT-1/DENR. Occasionally,...
5.
Pisareva V, Skabkin M, Hellen C, Pestova T, Pisarev A
EMBO J
. 2011 Mar;
30(9):1804-17.
PMID: 21448132
No-go decay (NGD) and non-stop decay (NSD) are eukaryotic surveillance mechanisms that target mRNAs on which elongation complexes (ECs) are stalled by, for example, stable secondary structures (NGD) or due...
6.
Skabkin M, Skabkina O, Dhote V, Komar A, Hellen C, Pestova T
Genes Dev
. 2010 Aug;
24(16):1787-801.
PMID: 20713520
Eukaryotic translation initiation begins with ribosomal recruitment of aminoacylated initiator tRNA (Met-tRNA(Met)(i)) by eukaryotic initiation factor eIF2. In cooperation with eIF3, eIF1, and eIF1A, Met-tRNA(Met)(i)/eIF2/GTP binds to 40S subunits yielding...
7.
Pisarev A, Skabkin M, Pisareva V, Skabkina O, Rakotondrafara A, Hentze M, et al.
Mol Cell
. 2010 Feb;
37(2):196-210.
PMID: 20122402
After termination, eukaryotic 80S ribosomes remain associated with mRNA, P-site deacylated tRNA, and release factor eRF1 and must be recycled by dissociating these ligands and separating ribosomes into subunits. Although...
8.
Svitkin Y, Evdokimova V, Brasey A, Pestova T, Fantus D, Yanagiya A, et al.
EMBO J
. 2008 Dec;
28(1):58-68.
PMID: 19078965
The interaction between the poly(A)-binding protein (PABP) and eukaryotic translational initiation factor 4G (eIF4G), which brings about circularization of the mRNA, stimulates translation. General RNA-binding proteins affect translation, but their...
9.
Sorokin A, Selyutina A, Skabkin M, Guryanov S, Nazimov I, Richard C, et al.
EMBO J
. 2005 Sep;
24(20):3602-12.
PMID: 16193061
YB-1 is a DNA/RNA-binding nucleocytoplasmic shuttling protein whose regulatory effect on many DNA- and RNA-dependent events is determined by its localization in the cell. Distribution of YB-1 between the nucleus...
10.
Skabkina O, Lyabin D, Skabkin M, Ovchinnikov L
Mol Cell Biol
. 2005 Mar;
25(8):3317-23.
PMID: 15798215
YB-1 is a member of the numerous families of proteins with an evolutionary ancient cold-shock domain. It is involved in many DNA- and RNA-dependent events and regulates gene expression at...