Search results for "Topologically associating domains"

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Evolutionary stability of topologically associating domains is associated with conserved gene regulation

2018

AbstractBackgroundThe human genome is highly organized in the three-dimensional nucleus. Chromosomes fold locally into topologically associating domains (TADs) defined by increased intra-domain chromatin contacts. TADs contribute to gene regulation by restricting chromatin interactions of regulatory sequences, such as enhancers, with their target genes. Disruption of TADs can result in altered gene expression and is associated to genetic diseases and cancers. However, it is not clear to which extent TAD regions are conserved in evolution and whether disruption of TADs by evolutionary rearrangements can alter gene expression.ResultsHere, we hypothesize that TADs represent essential functiona…

0301 basic medicinePhysiologyEvolutionGenome rearrangementsGene ExpressionGenomicsPlant ScienceComputational biologyBiologyGenomeGeneral Biochemistry Genetics and Molecular BiologyEvolution Molecular03 medical and health sciencesMiceStructural BiologyHi-CGene expressionAnimalsHumansEnhancerlcsh:QH301-705.5GeneSelectionEcology Evolution Behavior and SystematicsRegulation of gene expressionGenomeTopologically associating domainsGenome HumanCell BiologyTADChromatin Assembly and DisassemblyChromatinGene regulation030104 developmental biologylcsh:Biology (General)Gene Expression RegulationRegulatory sequenceHuman genomeGeneral Agricultural and Biological SciencesStructural variantsChromatin interactions3D genome architectureDevelopmental BiologyBiotechnologyResearch ArticleBMC Biology
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The distributions of protein coding genes within chromatin domains in relation to human disease.

2019

Abstract Background Our understanding of the nuclear chromatin structure has increased hugely during the last years mainly as a consequence of the advances in chromatin conformation capture methods like Hi-C. The unprecedented resolution of genome-wide interaction maps shows functional consequences that extend the initial thought of an efficient DNA packaging mechanism: gene regulation, DNA repair, chromosomal translocations and evolutionary rearrangements seem to be only the peak of the iceberg. One key concept emerging from this research is the topologically associating domains (TADs) whose functional role in gene regulation and their association with disease is not fully untangled. Resul…

lcsh:QH426-470Computational biologyBiologyChromatin structureCell LineChromosome conformation captureOpen Reading FramesGene expressionDatabases GeneticGeneticsEnhancersHumansDiseaseEnhancerMolecular BiologyGeneRegulation of gene expressionHousekeeping genesTopologically associating domainsResearchHuman diseasesTADGenes associated with diseaseHuman geneticsChromatinChromatinHousekeeping geneGene regulationlcsh:GeneticsEnhancer Elements GeneticTranscription Initiation SiteChromatin interactionsEpigeneticschromatin
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