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Hauptverfasser: Semeraro, Massimiliano, Negro, Giuseppe, Marenduzzo, Davide, Forte, Giada
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2507.02150
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author Semeraro, Massimiliano
Negro, Giuseppe
Marenduzzo, Davide
Forte, Giada
author_facet Semeraro, Massimiliano
Negro, Giuseppe
Marenduzzo, Davide
Forte, Giada
contents Timely up- or down-regulation of gene expression is crucial for cellular differentiation and function. While gene upregulation via transcriptional activators has been extensively investigated, gene silencing remains understudied, especially by modelling. This study employs 3D simulations to study the biophysics of a chromatin fibre where active transcription factors compete with repressors for binding to transcription units along the fibre, and investigates how different silencing mechanisms affect 3D chromatin structure and transcription. We examine three gene silencing feedback mechanisms: positive, negative, and neutral. These mechanisms capture different silencing pathways observed or proposed in biological systems. Our findings reveal that, whilst all mechanisms lead to a silencing transition, the signatures of this transition depend on the choice of the feedback. The latter controls the morphologies of the emergent 3D transcription factor clusters, the average gene expression and its variability, or gene noise, and the network of ensuing correlations between activities of neighbouring transcription units. These results provide insights into the biophysics of gene silencing, as well as into the interplay between transcriptional regulation and 3D genome organisation.
format Preprint
id arxiv_https___arxiv_org_abs_2507_02150
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modelling transcriptional silencing and its coupling to 3D genome organisation
Semeraro, Massimiliano
Negro, Giuseppe
Marenduzzo, Davide
Forte, Giada
Biological Physics
Timely up- or down-regulation of gene expression is crucial for cellular differentiation and function. While gene upregulation via transcriptional activators has been extensively investigated, gene silencing remains understudied, especially by modelling. This study employs 3D simulations to study the biophysics of a chromatin fibre where active transcription factors compete with repressors for binding to transcription units along the fibre, and investigates how different silencing mechanisms affect 3D chromatin structure and transcription. We examine three gene silencing feedback mechanisms: positive, negative, and neutral. These mechanisms capture different silencing pathways observed or proposed in biological systems. Our findings reveal that, whilst all mechanisms lead to a silencing transition, the signatures of this transition depend on the choice of the feedback. The latter controls the morphologies of the emergent 3D transcription factor clusters, the average gene expression and its variability, or gene noise, and the network of ensuing correlations between activities of neighbouring transcription units. These results provide insights into the biophysics of gene silencing, as well as into the interplay between transcriptional regulation and 3D genome organisation.
title Modelling transcriptional silencing and its coupling to 3D genome organisation
topic Biological Physics
url https://arxiv.org/abs/2507.02150