Poly(A) tail regulation in stem cells and early development. [PDF]
Miao X, Hu G.
europepmc +1 more source
Enhancing mRNA stability and translational potential through tailored modifications at the 3' end. [PDF]
Perzanowska O, Kowalska J, Jemielity J.
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The CCR4-NOT complex: a multifaceted sensor of molecular signals instructing eukaryotic mRNA translation and stability. [PDF]
Caulier G +4 more
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The CCR4–NOT Deadenylase Complex Maintains Adipocyte Identity
Shortening of poly(A) tails triggers mRNA degradation; hence, mRNA deadenylation regulates many biological events. In the present study, we generated mice lacking the Cnot1 gene, which encodes an essential scaffold subunit of the CCR4–NOT deadenylase complex in adipose tissues (Cnot1-AKO mice) and we examined the role of CCR4–NOT in adipocyte function.
openaire
Human pumilio proteins use fuzzy multivalent hydrophobic interactions to recruit the CCR4-NOT deadenylase complex to repress mRNAs. [PDF]
Dunshee EB +12 more
europepmc +1 more source
The CCR4-NOT deadenylase complex mediates tubulin autoregulation <i>via</i> specific adapters CNOT10 and CNOT11. [PDF]
Sarbanes SL, Hogg JR, Roll-Mecak A.
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Cytoplasmic poly-adenosine binding proteins modulate susceptibility of mRNAs to Pumilio-mediated decay. [PDF]
McKenney KM +6 more
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Human CCR4 deadenylase homolog Angel1 is a non-stop mRNA decay factor. [PDF]
Nicholson-Shaw T +7 more
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RNA triple helix assembled by the poly(A) tail enhances retrotransposon mobilization by preventing RNA deadenylation. [PDF]
Li H +5 more
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Auxin-induced depletion of human CCR4-NOT subunits reveals opposing functions of CNOT1 and CNOT4 in mRNA metabolism. [PDF]
Kulkarni S +6 more
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