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Evaluating the role of the nuclear microenvironment in gene function by population-based modeling

Aslı Yıldırım, Nan Hua, Lorenzo Boninsegna, Yuxiang Zhan, Guido Polles, Ke Gong, Shengli Hao, Wenyuan Li, Xianghong Jasmine Zhou, Frank Alber

2023Nature Structural & Molecular Biology29 citationsDOIOpen Access PDF

Abstract

The nuclear folding of chromosomes relative to nuclear bodies is an integral part of gene function. Here, we demonstrate that population-based modeling-from ensemble Hi-C data-provides a detailed description of the nuclear microenvironment of genes and its role in gene function. We define the microenvironment by the subnuclear positions of genomic regions with respect to nuclear bodies, local chromatin compaction, and preferences in chromatin compartmentalization. These structural descriptors are determined in single-cell models, thereby revealing the structural variability between cells. We demonstrate that the microenvironment of a genomic region is linked to its functional potential in gene transcription, replication, and chromatin compartmentalization. Some chromatin regions feature a strong preference for a single microenvironment, due to association with specific nuclear bodies in most cells. Other chromatin shows high structural variability, which is a strong indicator of functional heterogeneity. Moreover, we identify specialized nuclear microenvironments, which distinguish chromatin in different functional states and reveal a key role of nuclear speckles in chromosome organization. We demonstrate that our method produces highly predictive three-dimensional genome structures, which accurately reproduce data from a variety of orthogonal experiments, thus considerably expanding the range of Hi-C data analysis.

Topics & Concepts

ChromatinBiologyChIA-PETScaffold/matrix attachment regionNuclear matrixCompartmentalization (fire protection)GenePopulationComputational biologyChromatin remodelingNuclear transportReplication timingTranscription factoriesCell nucleusGeneticsGene expressionCell biologyTranscriptional regulationEnzymeSociologyBiochemistryDemographyGenomics and Chromatin DynamicsRNA Research and Splicing