Differences in the localization and morphology of chromosomes in the human nucleus
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TLDR
It is demonstrated that the distribution of genomic sequences between chromosomes has implications for nuclear structure and the findings are discussed in relation to a model of the human nucleus that is functionally compartmentalized.Abstract:
Using fluorescence in situ hybridization we show striking differences in nuclear position, chromosome morphology, and interactions with nuclear substructure for human chromosomes 18 and 19. Human chromosome 19 is shown to adopt a more internal position in the nucleus than chromosome 18 and to be more extensively associated with the nuclear matrix. The more peripheral localization of chromosome 18 is established early in the cell cycle and is maintained thereafter. We show that the preferential localization of chromosomes 18 and 19 in the nucleus is reflected in the orientation of translocation chromosomes in the nucleus. Lastly, we show that the inhibition of transcription can have gross, but reversible, effects on chromosome architecture. Our data demonstrate that the distribution of genomic sequences between chromosomes has implications for nuclear structure and we discuss our findings in relation to a model of the human nucleus that is functionally compartmentalized.read more
Citations
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Journal ArticleDOI
Position of Human Chromosomes is Conserved in Mouse Nuclei Indicating a Species-Independent Mechanism for Maintaining Genome Organization
Kundan Sengupta,Jordi Camps,Priya Mathews,Linda Barenboim-Stapleton,Quang Tri Nguyen,Michael J. Difilippantonio,Thomas Ried +6 more
TL;DR: It is shown that gene-poor and gene-rich human chromosomes maintain their divergent but conserved positions in mouse–human hybrid nuclei and that a foreign human chromosome is actively transcribed in mouse nuclei, suggesting a species-independent conserved mechanism for the nonrandom positioning of chromosomes in the three-dimensional interphase nucleus.
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Adipogenic histone mark regulation by matrix metalloproteinase 14 in collagen-rich microenvironments.
TL;DR: MMP14-dependent collagenolysis plays the major role in regulating adipogenic histone marks by releasing the epigenetic constraints imposed by fibrillar type I collagen.
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Organization of nuclear architecture during adipocyte differentiation.
Nancy L. Charó,María I Rodríguez Ceschan,Natalia M. Galigniana,Judith Toneatto,Graciela Piwien-Pilipuk +4 more
TL;DR: Recent advances in the understanding of the organization of nuclear architecture as progenitor cells differentiate in adipocytes are summarized, and the questions that still remained to be answered are summarized.
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Nuclear organisation in totipotent human nuclei and its relationship to chromosomal abnormality.
Katie A. Finch,Gothami Fonseka,Dimitris Ioannou,Nicholas Hickson,Zoe Barclay,Katerina Chatzimeletiou,A Mantzouratou,Alan H. Handyside,Joy D. A. Delhanty,Darren K. Griffin +9 more
TL;DR: Comparisons between chromosomally abnormal nuclei and those with no detected abnormality (NDA) suggest that the former display a significant non-random pattern for all autosomal loci, but there is a less distinct, possibly random, pattern in `NDA' nuclei.
BookDOI
The Functional Nucleus
TL;DR: Genetic manipulations in model organisms and experiments on cultured cells have begun to decipher how mutations in genes encoding broadly expressed nuclear envelope proteins cause diseases, and potential treatments for these rare diseases that impact on human health are identified.
References
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TL;DR: It is shown that transcriptionally inactive but not transcriptionally active genes associate with Ikaros-heterochromatin foci, which support a model of organization of the nucleus in which repressed genes are selectively recruited into centromeric domains.
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The inactive X chromosome in female mammals is distinguished by a lack of histone H4 acetylation, a cytogenetic marker for gene expression
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A Physical Map of 30,000 Human Genes
Panos Deloukas,Gregory D. Schuler,G. Gyapay,E. M. Beasley,Carol Soderlund,P. Rodriguez-Tomé,L. Hui,Tara C. Matise,K. B. McKusick,Jacques S. Beckmann,S. Bentolila,M.-T. Bihoreau,B. B. Birren,J. Browne,Adam Butler,A. B. Castle,N. Chiannilkulchai,C. Clee,P. J. R. Day,Anindya Dehejia,T. Dibling,N. Drouot,S. Duprat,C. Fizames,Sidney W. Fox,S. Gelling,L. Green,Paul Harrison,R. Hocking,E. Holloway,Sarah E. Hunt,S. Keil,Philip Lijnzaad,C. Louis-Dit-Sully,Jianpeng Ma,A. Mendis,J.H. Miller,J. Morissette,D. Muselet,H. C. Nusbaum,A. Peck,Steve Rozen,D. Simon,Donna K. Slonim,R. Staples,L. D. Stein,E. A. Stewart,Marc A. Suchard,T. Thangarajah,N. Vega-Czarny,Caleb Webber,Xufeng S. Wu,James R. Hudson,Charles Auffray,N. Nomura,James M. Sikela,Mihael H. Polymeropoulos,M. R. James,Eric S. Lander,Thomas J. Hudson,Richard M. Myers,D. R. Cox,Jean Weissenbach,Mark S. Boguski,D. R. Bentley +64 more
TL;DR: A map of 30,181 human gene-based markers was assembled and integrated with the current genetic map by radiation hybrid mapping, which contains nearly twice as many genes as the previous release and is twofold to threefold more accurate than the previous version.
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