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dc.contributor.authorBroderick, Jennifer A
dc.contributor.authorSalomon, William E.
dc.contributor.authorRyder, Sean P.
dc.contributor.authorAronin, Neil
dc.contributor.authorZamore, Phillip D.
dc.date2022-08-11T08:08:54.000
dc.date.accessioned2022-08-23T16:11:42Z
dc.date.available2022-08-23T16:11:42Z
dc.date.issued2011-10-01
dc.date.submitted2012-02-28
dc.identifier.citationRNA. 2011 Oct;17(10):1858-69. Epub 2011 Aug 30. <a href="http://dx.doi.org/10.1261/rna.2778911">Link to article on publisher's site</a>
dc.identifier.issn1355-8382 (Linking)
dc.identifier.doi10.1261/rna.2778911
dc.identifier.pmid21878547
dc.identifier.urihttp://hdl.handle.net/20.500.14038/33232
dc.description.abstractSmall RNAs loaded into Argonaute proteins direct silencing of complementary target mRNAs. It has been proposed that multiple, imperfectly complementary small interfering RNAs or microRNAs, when bound to the 3' untranslated region of a target mRNA, function cooperatively to silence target expression. We report that, in cultured human HeLa cells and mouse embryonic fibroblasts, Argonaute1 (Ago1), Ago3, and Ago4 act cooperatively to silence both perfectly and partially complementary target RNAs bearing multiple small RNA-binding sites. Our data suggest that for Ago1, Ago3, and Ago4, multiple, adjacent small RNA-binding sites facilitate cooperative interactions that stabilize Argonaute binding. In contrast, small RNAs bound to Ago2 and pairing perfectly to an mRNA target act independently to silence expression. Noncooperative silencing by Ago2 does not require the endoribonuclease activity of the protein: A mutant Ago2 that cannot cleave its mRNA target also silences noncooperatively. We propose that Ago2 binds its targets by a mechanism fundamentally distinct from that used by the three other mammalian Argonaute proteins.
dc.language.isoen_US
dc.relation<a href="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed&cmd=Retrieve&list_uids=21878547&dopt=Abstract">Link to Article in PubMed</a>
dc.rightsCopyright © 2011 RNA Society. Freely available online through the RNA Open Access option.
dc.subjectAnimals; Base Sequence; Cells, Cultured; Eukaryotic Initiation Factors; Humans; Mice; Protein Binding; *RNA Interference; RNA, Small Interfering
dc.subjectBiochemistry, Biophysics, and Structural Biology
dc.subjectLife Sciences
dc.subjectMedicine and Health Sciences
dc.subjectNeuroscience and Neurobiology
dc.titleArgonaute protein identity and pairing geometry determine cooperativity in mammalian RNA silencing
dc.typeJournal Article
dc.source.journaltitleRNA (New York, N.Y.)
dc.source.volume17
dc.source.issue10
dc.identifier.legacyfulltexthttps://escholarship.umassmed.edu/cgi/viewcontent.cgi?article=2778&amp;context=gsbs_sp&amp;unstamped=1
dc.identifier.legacycoverpagehttps://escholarship.umassmed.edu/gsbs_sp/1768
dc.identifier.contextkey2580892
refterms.dateFOA2022-08-23T16:11:42Z
html.description.abstract<p>Small RNAs loaded into Argonaute proteins direct silencing of complementary target mRNAs. It has been proposed that multiple, imperfectly complementary small interfering RNAs or microRNAs, when bound to the 3' untranslated region of a target mRNA, function cooperatively to silence target expression. We report that, in cultured human HeLa cells and mouse embryonic fibroblasts, Argonaute1 (Ago1), Ago3, and Ago4 act cooperatively to silence both perfectly and partially complementary target RNAs bearing multiple small RNA-binding sites. Our data suggest that for Ago1, Ago3, and Ago4, multiple, adjacent small RNA-binding sites facilitate cooperative interactions that stabilize Argonaute binding. In contrast, small RNAs bound to Ago2 and pairing perfectly to an mRNA target act independently to silence expression. Noncooperative silencing by Ago2 does not require the endoribonuclease activity of the protein: A mutant Ago2 that cannot cleave its mRNA target also silences noncooperatively. We propose that Ago2 binds its targets by a mechanism fundamentally distinct from that used by the three other mammalian Argonaute proteins.</p>
dc.identifier.submissionpathgsbs_sp/1768
dc.contributor.departmentDepartment of Biochemistry and Molecular Pharmacology
dc.source.pages1858-69
dc.contributor.studentJennifer A. Broderick


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