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article, google, scholar, cas, mrna, nature, cell, biol, rna, mammalian, deadenylation, decay, shyu, human, access, chen, micrornas, proteins, mol, protein, biology, cells, nat, repression, content, molecular, ago, microrna, cookies, gene, mrnas, translational, regulation, usa, privacy, data, micrornamediated, mirnamediated, silencing, argonaute, open, translation, science, cya, university, function, information, promoting, zheng, mirnas,

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nature portfolio permissions reprints privacy policy advertising social media author information authors nature 431 nature 433 nature 455 nature dcp1–dcp2 complex–directed decapping multiple gw-rich regions mirna-mediated gene silencing microrna-mediated gene silencing sirna-mediated gene knockdown ann-bin shyu author correspondence mirna-mediated translational repression microrna-mediated translational repression early-response-gene mrnas multiple argonaute-binding sites mammalian cell-free system springerlink instant access affect pabp-dependent deadenylation deadenylation steps chyi-ying p-body component gw182 permissions ccr4–caf1 deadenylase complexes personal data mirna-mediated decay au-rich elements molecular biology mammalian p-bodies mirna-mediated repression data protection analyzed data microrna-directed cleavage c-terminal half dcp2 decapping complexes mammalian mrna turnover protein synthesis induced human ago2 binds privacy microrna-dependent localization cold spring harbor purine-rich motifs c-terminal domains c-terminal domain rapid mrna decay cold spring harb

Questions {❓}

• Decoding ARE-mediated decay: is microRNA part of the equation?
• How do microRNAs regulate gene expression?
• Mechanisms of post-transcriptional regulation by microRNAs: are the answers in sight?

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