Litcius/Paper detail

Predicting gene expression changes from chromatin structure modification

Swayamshree Senapati, Inayat Ullah Irshad, Ajeet K. Sharma, Hemant Kumar

2025npj Systems Biology and Applications6 citationsDOIOpen Access PDF

Abstract

Spatial organization of chromatin plays a critical role in gene transcription, but connecting population-averaged HiC data to functional outcomes remains a challenge. We present a computational framework linking HiC contact map to gene transcription. Utilizing a bead-spring polymer model informed by HiC contact maps, we generate an ensemble of 3D conformations for a given genomic locus. These conformations are then coupled to gene transcription levels through a Markov chain model, with transition rates derived from molecular dynamics simulations. The efficacy of this framework is demonstrated by simulating the perturbation of a CTCF-mediated TAD boundary, impacting the expression of sox9 and kcnj2. Our model quantitatively reproduces experimentally observed changes in gene expression, revealing that the increased kcnj2 transcription is a consequence of enhancers within the sox9 TAD becoming accessible upon boundary disruption. Quantifying enhancer impact, our model can also identify functional enhancers. This framework enhances our understanding of the relationship between chromosome spatial architecture and gene regulation.

Topics & Concepts

EnhancerCTCFChromatinChromosome conformation captureComputational biologyEnhancer RNAsGeneticsBiologyTranscription factorPopulationGene expressionGeneRegulation of gene expressionTranscription (linguistics)Locus (genetics)SociologyPhilosophyDemographyLinguisticsGenomics and Chromatin DynamicsRNA Research and SplicingPlant Molecular Biology Research