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Subject Item
dbr:Cytoplasmic_polyadenylation_element
rdf:type
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rdfs:label
Cytoplasmic polyadenylation element
rdfs:comment
The cytoplasmic polyadenylation element (CPE) is a sequence element found in the 3' untranslated region of messenger RNA. While several sequence elements are known to regulate cytoplasmic polyadenylation, CPE is the best characterized. The most common CPE sequence is UUUUAU, though there are other variations. Binding of CPE binding protein (CPEB) to this region promotes the extension of the existing polyadenine tail and, in general, activation of the mRNA for protein translation. This elongation occurs after the mRNA has been exported from the nucleus to the cytoplasm. A longer poly(A) tail attracts more cytoplasmic polyadenine binding proteins (PABPs) which interact with several other cytoplasmic proteins that encourage the mRNA and the ribosome to associate. The lengthening of the poly(A
dcterms:subject
dbc:RNA
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11969640
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1040741365
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dbc:RNA dbr:Cellular_senescence dbr:Myc dbr:Spermatogenesis dbr:Polyadenylation dbr:CPEB dbr:Oogenesis dbr:Messenger_RNA dbr:3'_UTR dbr:Translation_(genetics)
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The cytoplasmic polyadenylation element (CPE) is a sequence element found in the 3' untranslated region of messenger RNA. While several sequence elements are known to regulate cytoplasmic polyadenylation, CPE is the best characterized. The most common CPE sequence is UUUUAU, though there are other variations. Binding of CPE binding protein (CPEB) to this region promotes the extension of the existing polyadenine tail and, in general, activation of the mRNA for protein translation. This elongation occurs after the mRNA has been exported from the nucleus to the cytoplasm. A longer poly(A) tail attracts more cytoplasmic polyadenine binding proteins (PABPs) which interact with several other cytoplasmic proteins that encourage the mRNA and the ribosome to associate. The lengthening of the poly(A) tail thus has a role in increasing translational efficiency of the mRNA. The polyadenine tails are extended from approximately 40 bases to 150 bases. Cytoplasmic polyadenylation should be distinguished from nuclear polyadenlyation; cytoplasmic polyadenylation occurs in the cytoplasm in specific mRNAs as opposed to occurring in the nucleus and affecting almost all eukaryotic mRNAs. Among other functions, a prominent role for the CPE has been identified in oogenesis, spermatogenesis, mitosis, and the growth of new synapses The role of the CPE was first characterized in Xenopus oocytes and embryos but recent research has identified roles for the CPE in somatic cells. Some proto-oncogene mRNAs have been shown to contain CPEs. One such gene is Myc. The level of production of the different CPEB proteins determines whether the expression of Myc leads to tumor formation. The tumor suppressor gene TP53 has also been shown to be regulated by a CPE. Cell lines that do not produce CPEB show lower levels of the protein p53 and become immortal instead of showing senescence. The eCPE and the C-CPE are two other cytoplasmic polyadenylation elements that are found within embryos. The most common eCPE sequence is UUUUUUUUUUUU while the sequence of C-CPE is generally a very C rich region with the occasional U. All of these CPEs have in common that their effectiveness in promoting the extension of the poly(A) tail depends on their proximity to the poly(A) signal. Optimally, they should be within 25 nucleotides but can be as far as 100 nucleotides from the poly(A) signal. Alternately, CPEs can cause translation repression if two CPE sequences are located within 50 nucleotides of each other within the 3’ UTR. The highest amounts of repression are seen when the two CPEs are 10 to 12 nucleotides apart. If the CPE has a nonconsensus sequence, a nearby Pumilio-binding element (PBE) is necessary for translational activation to result. If the CPE has a consensus sequence, the presence of the PBE can double the resulting translational activation. The CPE is not the only cis-acting element to regulate 3'UTR processing as alternative polyadenylation (APA) signals, microRNA target sites, and AU rich elements (ARE) also have roles in determining the length of the poly(A) tail.
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