Nicola L. Mahy scite author profile

To fully understand genome function, the linear genome map must be integrated with a spatial map of chromosomes in the nucleus. Distinct nuclear addresses for a few human chromosomes have been described. Previously we have demonstrated that the gene-rich human chromosome 19 is located in a more central position in the nucleus than the similarly sized, but gene-poor, chromosome 18. To determine whether these two chromosomes are a paradigm for the organization of chromatin in the human nucleus, we have now analysed the nuclear organization of every human chromosome in diploid lymphoblasts and primary fibroblasts. We find that the most gene-rich chromosomes concentrate at the centre of the nucleus, whereas the more gene-poor chromosomes are located towards the nuclear periphery. In contrast, we find no significant relationship between chromosome size and position within the nucleus. Proteins of the nuclear membrane or lamina are candidates for molecules that might anchor regions of the genome at the nuclear periphery and it has been suggested that disruption of this organization may play a role in some disease pathologies. We show that the intranuclear organization of chromosomes is not altered in cells that lack the integral nuclear membrane protein emerin, from an individual with X-linked Emery--Dreifuss muscular dystrophy. This suggests that emerin is not necessary for localizing chromosomes at the nuclear periphery and that the muscular dystrophy phenotype in such individuals is not due to grossly altered nuclear organization of chromatin.

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Gene density and transcription influence the localization of chromatin outside of chromosome territories detectable by FISH

Mahy

2002

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Genes can be transcribed from within chromosome territories; however, the major histocompatibilty complex locus has been reported extending away from chromosome territories, and the incidence of this correlates with transcription from the region. A similar result has been seen for the epidermal differentiation complex region of chromosome 1. These data suggested that chromatin decondensation away from the surface of chromosome territories may result from, and/or may facilitate, transcription of densely packed genes subject to coordinate regulation.To investigate whether localization outside of the visible confines of chromosome territories can also occur for regions that are not coordinately regulated, we have examined the spatial organization of human 11p15.5 and the syntenic region on mouse chromosome 7. This region is gene rich but its genes are not coordinately expressed, rather overall high levels of transcription occur in several cell types. We found that chromatin from 11p15.5 frequently extends away from the chromosome 11 territory. Localization outside of territories was also detected for other regions of high gene density and high levels of transcription. This is shown to be partly dependent on ongoing transcription. We suggest that local gene density and transcription, rather than the activity of individual genes, influences the organization of chromosomes in the nucleus.

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Spatial organization of active and inactive genes and noncoding DNA within chromosome territories

et al. 2002

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The position of genes within the nucleus has been correlated with their transcriptional activity. The interchromosome domain model of nuclear organization suggests that genes preferentially locate at the surface of chromosome territories. Conversely, high resolution analysis of chromatin fibers suggests that chromosome territories do not present accessibility barriers to transcription machinery.To clarify the relationship between the organization of chromosome territories and gene expression, we have used fluorescence in situ hybridization to analyze the spatial organization of a contiguous ∼1 Mb stretch of the Wilms' tumor, aniridia, genitourinary anomalies, mental retardation syndrome region of the human genome and the syntenic region in the mouse. These regions contain constitutively expressed genes, genes with tissue-restricted patterns of expression, and substantial regions of intergenic DNA. We find that there is a spatial organization within territories that is conserved between mouse and humans: certain sequences do preferentially locate at the periphery of the chromosome territories in both species. However, we do not detect genes necessarily at the periphery of chromosome territories or at the surface of subchromosomal domains. Intraterritory organization is not different among cell types that express different combinations of the genes under study.Our data demonstrate that transcription of both ubiquitous and tissue-restricted genes is not confined to the periphery of chromosome territories, suggesting that the basal transcription machinery and transcription factors can readily gain access to the chromosome interior.

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Do Higher-Order Chromatin Structure and Nuclear Reorganization Play a Role in Regulating Hox Gene Expression during Development?

Bickmore¹,

Mahy²,

Chambeyron³

2004

Cold Spring Harbor Symposia on Quantitative Biology

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Nicola L. Mahy

The spatial organization of human chromosomes within the nuclei of normal and emerin-mutant cells

Gene density and transcription influence the localization of chromatin outside of chromosome territories detectable by FISH

Spatial organization of active and inactive genes and noncoding DNA within chromosome territories

Do Higher-Order Chromatin Structure and Nuclear Reorganization Play a Role in Regulating Hox Gene Expression during Development?

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