Transcription feedback dynamics in the wake of cytoplasmic mRNA degradation shutdown

Alon Chappleboim; Daphna Joseph-Strauss; Omer Gershon; Nir Friedman

doi:10.1093/nar/gkac411

Transcription feedback dynamics in the wake of cytoplasmic mRNA degradation shutdown

Alon Chappleboim, Daphna Joseph-Strauss, Omer Gershon, Nir Friedman

The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

In the last decade, multiple studies demonstrated that cells maintain a balance of mRNA production and degradation, but the mechanisms by which cells implement this balance remain unknown. Here, we monitored cells' total and recently-transcribed mRNA profiles immediately following an acute depletion of Xrn1-the main 5′-3′ mRNA exonuclease-which was previously implicated in balancing mRNA levels. We captured the detailed dynamics of the adaptation to rapid degradation of Xrn1 and observed a significant accumulation of mRNA, followed by a delayed global reduction in transcription and a gradual return to baseline mRNA levels. We found that this transcriptional response is not unique to Xrn1 depletion; rather, it is induced earlier when upstream factors in the 5′-3′ degradation pathway are perturbed. Our data suggest that the mRNA feedback mechanism monitors the accumulation of inputs to the 5′-3′ exonucleolytic pathway rather than its outputs.

Original language	English
Pages (from-to)	5864-5880
Number of pages	17
Journal	Nucleic acids research
Volume	50
Issue number	10
DOIs	https://doi.org/10.1093/nar/gkac411
State	Published - 10 Jun 2022

All Science Journal Classification (ASJC) codes

Genetics

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10.1093/nar/gkac411

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title = "Transcription feedback dynamics in the wake of cytoplasmic mRNA degradation shutdown",

abstract = "In the last decade, multiple studies demonstrated that cells maintain a balance of mRNA production and degradation, but the mechanisms by which cells implement this balance remain unknown. Here, we monitored cells' total and recently-transcribed mRNA profiles immediately following an acute depletion of Xrn1-the main 5′-3′ mRNA exonuclease-which was previously implicated in balancing mRNA levels. We captured the detailed dynamics of the adaptation to rapid degradation of Xrn1 and observed a significant accumulation of mRNA, followed by a delayed global reduction in transcription and a gradual return to baseline mRNA levels. We found that this transcriptional response is not unique to Xrn1 depletion; rather, it is induced earlier when upstream factors in the 5′-3′ degradation pathway are perturbed. Our data suggest that the mRNA feedback mechanism monitors the accumulation of inputs to the 5′-3′ exonucleolytic pathway rather than its outputs.",

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AB - In the last decade, multiple studies demonstrated that cells maintain a balance of mRNA production and degradation, but the mechanisms by which cells implement this balance remain unknown. Here, we monitored cells' total and recently-transcribed mRNA profiles immediately following an acute depletion of Xrn1-the main 5′-3′ mRNA exonuclease-which was previously implicated in balancing mRNA levels. We captured the detailed dynamics of the adaptation to rapid degradation of Xrn1 and observed a significant accumulation of mRNA, followed by a delayed global reduction in transcription and a gradual return to baseline mRNA levels. We found that this transcriptional response is not unique to Xrn1 depletion; rather, it is induced earlier when upstream factors in the 5′-3′ degradation pathway are perturbed. Our data suggest that the mRNA feedback mechanism monitors the accumulation of inputs to the 5′-3′ exonucleolytic pathway rather than its outputs.

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Transcription feedback dynamics in the wake of cytoplasmic mRNA degradation shutdown

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