scholarly article | Q13442814 |
P50 | author | Olivier Jean-Jean | Q90750966 |
P2093 | author name string | Tahar Bouceba | |
Olivier Jean-Jean | |||
Béatrice Jolles | |||
Soumaya Jerbi | |||
P2860 | cites work | mRNA-specific regulation of translation by poly(A)-binding proteins | Q82669298 |
HuD RNA recognition motifs play distinct roles in the formation of a stable complex with AU-rich RNA | Q22254228 | ||
Paip1 interacts with poly(A) binding protein through two independent binding motifs | Q24296939 | ||
Structural basis of ligand recognition by PABC, a highly specific peptide-binding domain found in poly(A)-binding protein and a HECT ubiquitin ligase | Q24302239 | ||
Molecular basis of eRF3 recognition by the MLLE domain of poly(A)-binding protein | Q24307891 | ||
Poly(A) nuclease interacts with the C-terminal domain of polyadenylate-binding protein domain from poly(A)-binding protein | Q24314646 | ||
Molecular cloning of a novel member of the eukaryotic polypeptide chain-releasing factors (eRF). Its identification as eRF3 interacting with eRF1 | Q24336094 | ||
A competition between stimulators and antagonists of Upf complex recruitment governs human nonsense-mediated mRNA decay | Q24336651 | ||
Poly(A)-binding protein and eRF3 are associated in vivo in human and Xenopus cells | Q24337308 | ||
Involvement of human release factors eRF3a and eRF3b in translation termination and regulation of the termination complex formation | Q24531977 | ||
Dual interactions of the translational repressor Paip2 with poly(A) binding protein | Q24550892 | ||
A single domain of yeast poly(A)-binding protein is necessary and sufficient for RNA binding and cell viability | Q24613380 | ||
Mechanism of mRNA deadenylation: evidence for a molecular interplay between translation termination factor eRF3 and mRNA deadenylases | Q24675982 | ||
Human TOB, an antiproliferative transcription factor, is a poly(A)-binding protein-dependent positive regulator of cytoplasmic mRNA deadenylation | Q24681334 | ||
Kinetic analysis of the role of the tyrosine 13, phenylalanine 56 and glutamine 54 network in the U1A/U1 hairpin II interaction | Q24794218 | ||
The role of mammalian poly(A)-binding proteins in co-ordinating mRNA turnover | Q27010244 | ||
The eukaryotic polypeptide chain releasing factor (eRF3/GSPT) carrying the translation termination signal to the 3'-Poly(A) tail of mRNA. Direct association of erf3/GSPT with polyadenylate-binding protein | Q28198307 | ||
Polyglycine expansions in eRF3/GSPT1 are associated with gastric cancer susceptibility | Q28259039 | ||
Concerted action of poly(A) nucleases and decapping enzyme in mammalian mRNA turnover | Q28281490 | ||
Poly(A)-binding protein acts in translation termination via eukaryotic release factor 3 interaction and does not influence [PSI(+)] propagation | Q34278926 | ||
Interaction between the poly(A)-binding protein Pab1 and the eukaryotic release factor eRF3 regulates translation termination but not mRNA decay in Saccharomyces cerevisiae | Q34761585 | ||
The mRNA closed-loop model: the function of PABP and PABP-interacting proteins in mRNA translation | Q35133699 | ||
Nanopore detachment kinetics of poly(A) binding proteins from RNA molecules reveals the critical role of C-terminus interactions | Q35843515 | ||
Biological role of the two overlapping poly(A)-binding protein interacting motifs 2 (PAM2) of eukaryotic releasing factor eRF3 in mRNA decay. | Q36342225 | ||
Overexpression of human release factor 1 alone has an antisuppressor effect in human cells. | Q36568633 | ||
The poly(A)-poly(A)-binding protein complex is a major determinant of mRNA stability in vitro | Q36766315 | ||
Mechanism of the initiation of mRNA decay: role of eRF3 family G proteins | Q38042403 | ||
The ARE-associated factor AUF1 binds poly(A) in vitro in competition with PABP. | Q39659945 | ||
eRF3a/GSPT1 12-GGC allele increases the susceptibility for breast cancer development | Q39855036 | ||
Proteasomal degradation of human release factor eRF3a regulates translation termination complex formation | Q40034885 | ||
Surface plasmon resonance (SPR) analysis of binding interactions of proteins in inner-ear sensory epithelia | Q40370461 | ||
GTP-dependent structural rearrangement of the eRF1:eRF3 complex and eRF3 sequence motifs essential for PABP binding | Q42036963 | ||
The N-terminus of HIV-1 Tat protein is essential for Tat-TAR RNA interaction. | Q51593840 | ||
Is there a human [psi]? | Q53986496 | ||
GGCn polymorphism of eRF3a/GSPT1 gene and breast cancer susceptibility. | Q54338136 | ||
Xenopus poly(A) binding protein: functional domains in RNA binding and protein-protein interaction | Q71020715 | ||
[Identification of a novel termination release factor eRF3b expressing the eRF3 activity in vitro and in vivo] | Q74429986 | ||
P275 | copyright license | Creative Commons Attribution-NonCommercial 3.0 Unported | Q18810331 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 3 | |
P304 | page(s) | 306-315 | |
P577 | publication date | 2016-01-28 | |
P1433 | published in | RNA Biology | Q7277167 |
P1476 | title | Studies on human eRF3-PABP interaction reveal the influence of eRF3a N-terminal glycin repeat on eRF3-PABP binding affinity and the lower affinity of eRF3a 12-GGC allele involved in cancer susceptibility | |
P478 | volume | 13 |
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