Transcription directionality is licensed by Integrator at active human promoters

A universal characteristic of eukaryotic transcription is that the promoter recruits RNA polymerase II (RNAPII) to produce both precursor mRNAs (pre-mRNAs) and short unstable promoter upstream transcripts (PROMPTs) toward the opposite direction. However, how the transcription machinery selects the c...

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Veröffentlicht in:	Nature structural & molecular biology 2024-08, Vol.31 (8), p.1208-1221
Hauptverfasser:	Yang, Jiao, Li, Jingyang, Miao, Langxi, Gao, Xu, Sun, Wenhao, Linghu, Shuo, Ren, Guiping, Peng, Bangya, Chen, Shunkai, Liu, Zhongqi, Wang, Bo, Dong, Ao, Huang, Duo, Yuan, Jinrong, Dang, Yunkun, Lai, Fan
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Schlagworte:	631/337/1645 631/337/384 631/337/572 631/337/572/2102 Accumulation Antisense RNA Binding sites Biochemistry Biological Microscopy Biomedical and Life Sciences Depletion DNA-directed RNA polymerase Endonuclease Integrators Life Sciences Membrane Biology Phosphorylation Prepolymers Protein Structure RNA polymerase RNA polymerase II Robustness Transcription
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creator	Yang, Jiao Li, Jingyang Miao, Langxi Gao, Xu Sun, Wenhao Linghu, Shuo Ren, Guiping Peng, Bangya Chen, Shunkai Liu, Zhongqi Wang, Bo Dong, Ao Huang, Duo Yuan, Jinrong Dang, Yunkun Lai, Fan
description	A universal characteristic of eukaryotic transcription is that the promoter recruits RNA polymerase II (RNAPII) to produce both precursor mRNAs (pre-mRNAs) and short unstable promoter upstream transcripts (PROMPTs) toward the opposite direction. However, how the transcription machinery selects the correct direction to produce pre-mRNAs is largely unknown. Here, through multiple acute auxin-inducible degradation systems, we show that rapid depletion of an RNAPII-binding protein complex, Integrator, results in robust PROMPT accumulation throughout the genome. Interestingly, the accumulation of PROMPTs is compensated by the reduction of pre-mRNA transcripts in actively transcribed genes. Consistently, Integrator depletion alters the distribution of polymerase between the sense and antisense directions, which is marked by increased RNAPII-carboxy-terminal domain Tyr1 phosphorylation at PROMPT regions and a reduced Ser2 phosphorylation level at transcription start sites. Mechanistically, the endonuclease activity of Integrator is critical to suppress PROMPT production. Furthermore, our data indicate that the presence of U1 binding sites on nascent transcripts could counteract the cleavage activity of Integrator. In this process, the absence of robust U1 signal at most PROMPTs allows Integrator to suppress the antisense transcription and shift the transcriptional balance in favor of the sense direction. The authors investigate how the transcription machinery selects the correct direction to produce coding transcripts. Their results propose a universal mechanism by which Integrator licenses bidirectional transcription to determine the direction of eukaryotic pre-mRNA transcription.
doi_str_mv	10.1038/s41594-024-01272-z
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However, how the transcription machinery selects the correct direction to produce pre-mRNAs is largely unknown. Here, through multiple acute auxin-inducible degradation systems, we show that rapid depletion of an RNAPII-binding protein complex, Integrator, results in robust PROMPT accumulation throughout the genome. Interestingly, the accumulation of PROMPTs is compensated by the reduction of pre-mRNA transcripts in actively transcribed genes. Consistently, Integrator depletion alters the distribution of polymerase between the sense and antisense directions, which is marked by increased RNAPII-carboxy-terminal domain Tyr1 phosphorylation at PROMPT regions and a reduced Ser2 phosphorylation level at transcription start sites. Mechanistically, the endonuclease activity of Integrator is critical to suppress PROMPT production. Furthermore, our data indicate that the presence of U1 binding sites on nascent transcripts could counteract the cleavage activity of Integrator. In this process, the absence of robust U1 signal at most PROMPTs allows Integrator to suppress the antisense transcription and shift the transcriptional balance in favor of the sense direction. The authors investigate how the transcription machinery selects the correct direction to produce coding transcripts. 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However, how the transcription machinery selects the correct direction to produce pre-mRNAs is largely unknown. Here, through multiple acute auxin-inducible degradation systems, we show that rapid depletion of an RNAPII-binding protein complex, Integrator, results in robust PROMPT accumulation throughout the genome. Interestingly, the accumulation of PROMPTs is compensated by the reduction of pre-mRNA transcripts in actively transcribed genes. Consistently, Integrator depletion alters the distribution of polymerase between the sense and antisense directions, which is marked by increased RNAPII-carboxy-terminal domain Tyr1 phosphorylation at PROMPT regions and a reduced Ser2 phosphorylation level at transcription start sites. Mechanistically, the endonuclease activity of Integrator is critical to suppress PROMPT production. Furthermore, our data indicate that the presence of U1 binding sites on nascent transcripts could counteract the cleavage activity of Integrator. In this process, the absence of robust U1 signal at most PROMPTs allows Integrator to suppress the antisense transcription and shift the transcriptional balance in favor of the sense direction. The authors investigate how the transcription machinery selects the correct direction to produce coding transcripts. 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However, how the transcription machinery selects the correct direction to produce pre-mRNAs is largely unknown. Here, through multiple acute auxin-inducible degradation systems, we show that rapid depletion of an RNAPII-binding protein complex, Integrator, results in robust PROMPT accumulation throughout the genome. Interestingly, the accumulation of PROMPTs is compensated by the reduction of pre-mRNA transcripts in actively transcribed genes. Consistently, Integrator depletion alters the distribution of polymerase between the sense and antisense directions, which is marked by increased RNAPII-carboxy-terminal domain Tyr1 phosphorylation at PROMPT regions and a reduced Ser2 phosphorylation level at transcription start sites. Mechanistically, the endonuclease activity of Integrator is critical to suppress PROMPT production. Furthermore, our data indicate that the presence of U1 binding sites on nascent transcripts could counteract the cleavage activity of Integrator. In this process, the absence of robust U1 signal at most PROMPTs allows Integrator to suppress the antisense transcription and shift the transcriptional balance in favor of the sense direction. The authors investigate how the transcription machinery selects the correct direction to produce coding transcripts. Their results propose a universal mechanism by which Integrator licenses bidirectional transcription to determine the direction of eukaryotic pre-mRNA transcription.</abstract><cop>New York</cop><pub>Nature Publishing Group US</pub><pmid>38649617</pmid><doi>10.1038/s41594-024-01272-z</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-0568-2616</orcidid><orcidid>https://orcid.org/0000-0002-8206-0271</orcidid></addata></record>
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subjects	631/337/1645 631/337/384 631/337/572 631/337/572/2102 Accumulation Antisense RNA Binding sites Biochemistry Biological Microscopy Biomedical and Life Sciences Depletion DNA-directed RNA polymerase Endonuclease Integrators Life Sciences Membrane Biology Phosphorylation Prepolymers Protein Structure RNA polymerase RNA polymerase II Robustness Transcription
title	Transcription directionality is licensed by Integrator at active human promoters
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