Cytoplasmic polyadenylation element-binding protein 3

Protein information

  • Protein ID: Q8NE35
  • Protein Name : Cytoplasmic polyadenylation element-binding protein 3
  • Gene : CPEB3
  • Organism : Homo sapiens
  • Status : reviewed
  • Function : Sequence-specific RNA-binding protein which acts as a translational repressor in the basal unstimulated state but following neuronal stimulation acts as a translational activator (By similarity). In contrast to CPEB1 does not bind to the cytoplasmic polyadenylation element (CPE) a uridine-rich sequence element within the mRNA 3'-UTR but binds to a U-rich loop within a stem-loop structure (By similarity). Required for the consolidation and maintenance of hippocampal-based long term memory (By similarity). In the basal state binds to the mRNA 3'-UTR of the glutamate receptors GRIA2/GLUR2 mRNA and negatively regulates their translation (By similarity). Also represses the translation of DLG4 GRIN1 GRIN2A and GRIN2B (By similarity). When activated acts as a translational activator of GRIA1 and GRIA2 (By similarity). In the basal state suppresses SUMO2 translation but activates it following neuronal stimulation (By similarity). Binds to the 3'-UTR of TRPV1 mRNA and represses TRPV1 translation which is required to maintain normal thermoception (By similarity). Binds actin mRNA leading to actin translational repression in the basal state and to translational activation following neuronal stimulation (By similarity). Negatively regulates target mRNA levels by binding to TOB1 which recruits CNOT7/CAF1 to a ternary complex and this leads to target mRNA deadenylation and decay (PubMed:21336257). In addition to its role in translation binds to and inhibits the transcriptional activation activity of STAT5B without affecting its dimerization or DNA-binding activity. This in turn represses transcription of the STAT5B target gene EGFR which has been shown to play a role in enhancing learning and memory performance (PubMed:20639532). In contrast to CPEB1 CPEB2 and CPEB4 not required for cell cycle progression (PubMed:26398195).

Protein Sequence

  • MQDDLLMDKSKTQPQPQQQQRQQQQPQPESSVSEAPSTPLSSETPKPEENSAVPALSPAAAPPAPNGPDKMQMESPLLPGLSFHQPPQQPPPPQEPAAPGASLSPSFGSTWSTGTTNAVEDSFFQGITPVNGTMLFQNFPHHVNPVFGGTFSPQIGLAQTQHHQQPPPPAPAPQPAQPAQPPQAQPPQQRRSPASPSQAPYAQRSAAAAYGHQPIMTSKPSSSSAVAAAAAAAAASSASSSWNTHQSVNAAWSAPSNPWGGLQAGRDPRRAVGVGVGVGVGVPSPLNPISPLKKPFSSNVIAPPKFPRAAPLTSKSWMEDNAFRTDNGNNLLPFQDRSRPYDTFNLHSLENSLMDMIRTDHEPLKGKHYPPSGPPMSFADIMWRNHFAGRMGINFHHPGTDNIMALNNAFLDDSHGDQALSSGLSSPTRCQNGERVERYSRKVFVGGLPPDIDEDEITASFRRFGPLVVDWPHKAESKSYFPPKGYAFLLFQEESSVQALIDACLEEDGKLYLCVSSPTIKDKPVQIRPWNLSDSDFVMDGSQPLDPRKTIFVGGVPRPLRAVELAMIMDRLYGGVCYAGIDTDPELKYPKGAGRVAFSNQQSYIAAISARFVQLQHNDIDKRVEVKPYVLDDQMCDECQGTRCGGKFAPFFCANVTCLQYYCEYCWASIHSRAGREFHKPLVKEGGDRPRHVPFRWS

RRM domains in this Protein - 1 

RRM Entryname RRM Sequence range Pfam ID
Q8NE35_RRM1 440 - 529 PF16367

Experiments retrieved for this Protein - 2 

Experiment ID Experiment Type PubMed ID
Exp_2DNL NMR
Exp_2RUG NMR 25066254