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dc.contributor.authorSmith, Kelly P.
dc.contributor.authorHall, Lisa L.
dc.contributor.authorLawrence, Jeanne B.
dc.date2022-08-11T08:08:24.000
dc.date.accessioned2022-08-23T15:54:10Z
dc.date.available2022-08-23T15:54:10Z
dc.date.issued2020-06-01
dc.date.submitted2020-07-22
dc.identifier.citation<p>Smith KP, Hall LL, Lawrence JB. Nuclear hubs built on RNAs and clustered organization of the genome. Curr Opin Cell Biol. 2020 Jun;64:67-76. doi: 10.1016/j.ceb.2020.02.015. Epub 2020 Apr 4. PMID: 32259767; PMCID: PMC7371543. <a href="https://doi.org/10.1016/j.ceb.2020.02.015">Link to article on publisher's site</a></p>
dc.identifier.issn0955-0674 (Linking)
dc.identifier.doi10.1016/j.ceb.2020.02.015
dc.identifier.pmid32259767
dc.identifier.urihttp://hdl.handle.net/20.500.14038/29496
dc.description.abstractRNAs play diverse roles in formation and function of subnuclear compartments, most of which are associated with active genes. NEAT1 and NEAT2/MALAT1 exemplify long non-coding RNAs (lncRNAs) known to function in nuclear bodies; however, we suggest that RNA biogenesis itself may underpin much nuclear compartmentalization. Recent studies show that active genes cluster with nuclear speckles on a genome-wide scale, significantly advancing earlier cytological evidence that speckles (aka SC-35 domains) are hubs of concentrated pre-mRNA metabolism. We propose the 'karyotype to hub' hypothesis to explain this organization: clustering of genes in the human karyotype may have evolved to facilitate the formation of efficient nuclear hubs, driven in part by the propensity of ribonucleoproteins (RNPs) to form large-scale condensates. The special capacity of highly repetitive RNAs to impact architecture is highlighted by recent findings that human satellite II RNA sequesters factors into abnormal nuclear bodies in disease, potentially co-opting a normal developmental mechanism.
dc.language.isoen_US
dc.relation<p><a href="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed&cmd=Retrieve&list_uids=32259767&dopt=Abstract">Link to Article in PubMed</a></p>
dc.relation.urlhttps://doi.org/10.1016/j.ceb.2020.02.015
dc.subjectChromosome bands
dc.subjectGenome organization
dc.subjectNon-coding RNA
dc.subjectNuclear structure
dc.subjectSpeckles
dc.subjectAmino Acids, Peptides, and Proteins
dc.subjectCell Biology
dc.subjectDevelopmental Biology
dc.subjectGenetic Phenomena
dc.subjectGenetics and Genomics
dc.subjectNucleic Acids, Nucleotides, and Nucleosides
dc.titleNuclear hubs built on RNAs and clustered organization of the genome
dc.typeJournal Article
dc.source.journaltitleCurrent opinion in cell biology
dc.source.volume64
dc.identifier.legacycoverpagehttps://escholarship.umassmed.edu/faculty_pubs/1719
dc.identifier.contextkey18616853
html.description.abstract<p>RNAs play diverse roles in formation and function of subnuclear compartments, most of which are associated with active genes. NEAT1 and NEAT2/MALAT1 exemplify long non-coding RNAs (lncRNAs) known to function in nuclear bodies; however, we suggest that RNA biogenesis itself may underpin much nuclear compartmentalization. Recent studies show that active genes cluster with nuclear speckles on a genome-wide scale, significantly advancing earlier cytological evidence that speckles (aka SC-35 domains) are hubs of concentrated pre-mRNA metabolism. We propose the 'karyotype to hub' hypothesis to explain this organization: clustering of genes in the human karyotype may have evolved to facilitate the formation of efficient nuclear hubs, driven in part by the propensity of ribonucleoproteins (RNPs) to form large-scale condensates. The special capacity of highly repetitive RNAs to impact architecture is highlighted by recent findings that human satellite II RNA sequesters factors into abnormal nuclear bodies in disease, potentially co-opting a normal developmental mechanism.</p>
dc.identifier.submissionpathfaculty_pubs/1719
dc.contributor.departmentLawrence Lab
dc.contributor.departmentDepartment of Neurology
dc.source.pages67-76


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