Emerging Roles of Non-Coding RNA Transcription

Metazoan genomes are broadly transcribed by RNA polymerase II (RNAPII), but surprisingly few of these RNAs encode proteins. Accordingly, there is great interest in understanding the origins and potential roles of the vast array of non-coding RNAs (ncRNAs) that are produced. We present here emerging...

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Published inTrends in biochemical sciences (Amsterdam. Regular ed.) Vol. 43; no. 9; pp. 654 - 667
Main Authors Kaikkonen, Minna U., Adelman, Karen
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.09.2018
Subjects
Animalia
chromatin
chromatin structure
DNA-directed RNA polymerase
enhancer
epigenetics
gene regulation
genome
lncRNA
loci
non-coding RNA
transcription (genetics)
transcription factors
transcriptional interference
enhancer
lncRNA
chromatin structure
non-coding RNA
gene regulation
transcriptional interference
Online AccessGet full text
ISSN0968-0004
1362-4326
DOI10.1016/j.tibs.2018.06.002

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Abstract Metazoan genomes are broadly transcribed by RNA polymerase II (RNAPII), but surprisingly few of these RNAs encode proteins. Accordingly, there is great interest in understanding the origins and potential roles of the vast array of non-coding RNAs (ncRNAs) that are produced. We present here emerging evidence that the act of transcription and the presence of nascent RNA at a locus is often central to function, rather than specific ncRNA sequences or structures. We highlight examples wherein transcription elongation through a regulatory region modulates chromatin structure and/or transcription factor occupancy, and describe how nascent RNA contributes to the local epigenetic landscape through sequence-independent interactions with chromatin regulators. Finally, we discuss current strategies for probing the potential functions of ncRNA transcription. The location of ncRNAs with respect to target genes is more highly conserved than the ncRNA sequence, suggesting that position-specific cis effects are driving ncRNA evolution. Recent studies indicate that it is often the act of transcription, rather than the sequence or nature of the ncRNA product, that acts as a modulator of chromatin accessibility, transcription factor occupancy, and epigenetic state. Nascent ncRNAs can interact in a sequence-independent manner with epigenetic regulators and transcription factors bound nearby to influence their retention or catalytic activity. Advances in genome-editing and genome-targeting strategies will help to more clearly define the effects of ncRNA transcription on mRNA expression.
AbstractList Metazoan genomes are broadly transcribed by RNA polymerase II (RNAPII), but surprisingly few of these RNAs encode proteins. Accordingly, there is great interest in understanding the origins and potential roles of the vast array of non-coding RNAs (ncRNAs) that are produced. We present here emerging evidence that the act of transcription and the presence of nascent RNA at a locus is often central to function, rather than specific ncRNA sequences or structures. We highlight examples wherein transcription elongation through a regulatory region modulates chromatin structure and/or transcription factor occupancy, and describe how nascent RNA contributes to the local epigenetic landscape through sequence-independent interactions with chromatin regulators. Finally, we discuss current strategies for probing the potential functions of ncRNA transcription.
Metazoan genomes are broadly transcribed by RNA polymerase II (RNAPII), but surprisingly few of these RNAs encode proteins. Accordingly, there is great interest in understanding the origins and potential roles of the vast array of non-coding RNAs (ncRNAs) that are produced. We present here emerging evidence that the act of transcription and the presence of nascent RNA at a locus is often central to function, rather than specific ncRNA sequences or structures. We highlight examples wherein transcription elongation through a regulatory region modulates chromatin structure and/or transcription factor occupancy, and describe how nascent RNA contributes to the local epigenetic landscape through sequence-independent interactions with chromatin regulators. Finally, we discuss current strategies for probing the potential functions of ncRNA transcription.Metazoan genomes are broadly transcribed by RNA polymerase II (RNAPII), but surprisingly few of these RNAs encode proteins. Accordingly, there is great interest in understanding the origins and potential roles of the vast array of non-coding RNAs (ncRNAs) that are produced. We present here emerging evidence that the act of transcription and the presence of nascent RNA at a locus is often central to function, rather than specific ncRNA sequences or structures. We highlight examples wherein transcription elongation through a regulatory region modulates chromatin structure and/or transcription factor occupancy, and describe how nascent RNA contributes to the local epigenetic landscape through sequence-independent interactions with chromatin regulators. Finally, we discuss current strategies for probing the potential functions of ncRNA transcription.
Metazoan genomes are broadly transcribed by RNA polymerase II (RNAPII), but surprisingly few of these RNAs encode proteins. Accordingly, there is great interest in understanding the origins and potential roles of the vast array of non-coding RNAs (ncRNAs) that are produced. We present here emerging evidence that the act of transcription and the presence of nascent RNA at a locus is often central to function, rather than specific ncRNA sequences or structures. We highlight examples wherein transcription elongation through a regulatory region modulates chromatin structure and/or transcription factor occupancy, and describe how nascent RNA contributes to the local epigenetic landscape through sequence-independent interactions with chromatin regulators. Finally, we discuss current strategies for probing the potential functions of ncRNA transcription. The location of ncRNAs with respect to target genes is more highly conserved than the ncRNA sequence, suggesting that position-specific cis effects are driving ncRNA evolution. Recent studies indicate that it is often the act of transcription, rather than the sequence or nature of the ncRNA product, that acts as a modulator of chromatin accessibility, transcription factor occupancy, and epigenetic state. Nascent ncRNAs can interact in a sequence-independent manner with epigenetic regulators and transcription factors bound nearby to influence their retention or catalytic activity. Advances in genome-editing and genome-targeting strategies will help to more clearly define the effects of ncRNA transcription on mRNA expression.
Author Kaikkonen, Minna U.
Adelman, Karen
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  surname: Adelman
  fullname: Adelman, Karen
  organization: Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, MA 02115, USA
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Keywords enhancer
lncRNA
chromatin structure
non-coding RNA
gene regulation
transcriptional interference
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Snippet Metazoan genomes are broadly transcribed by RNA polymerase II (RNAPII), but surprisingly few of these RNAs encode proteins. Accordingly, there is great...
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SubjectTerms Animalia
chromatin
chromatin structure
DNA-directed RNA polymerase
enhancer
epigenetics
gene regulation
genome
lncRNA
loci
non-coding RNA
transcription (genetics)
transcription factors
transcriptional interference
Title Emerging Roles of Non-Coding RNA Transcription
URI https://dx.doi.org/10.1016/j.tibs.2018.06.002
https://www.ncbi.nlm.nih.gov/pubmed/30145998
https://www.proquest.com/docview/2094413839
https://www.proquest.com/docview/2131855252
Volume 43
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