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
Chromosomes are predominantly located randomly with respect to each other in interphase human cells.
Michael N. Cornforth,Karin M. Greulich-Bode,Karin M. Greulich-Bode,Bradford D. Loucas,Javier Arsuaga,Mariel Vazquez,Rainer K. Sachs,Martina Brückner,Michael Molls,Philip Hahnfeldt,Lynn Hlatky,David J. Brenner +11 more
TL;DR: Whereas some chromosome–chromosome associations are clearly present, at the whole-chromosomal level, the predominant overall pattern appears to be spatially random.
Journal ArticleDOI
Interchromosomal association and gene regulation in trans.
TL;DR: Evidence is emerging that regulatory elements might have the capacity to act in trans to regulate genes on other chromosomes, but unequivocal data required to prove that interchromosomal gene regulation truly represents another level of control within the nucleus is lacking and this concept remains highly contentious.
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Cancer nucleus: Morphology and beyond
TL;DR: The salient visual and subvisual morphological changes of cancer nuclei and their possible etiology and significance have been reviewed.
Journal ArticleDOI
Transcribed genes are localized according to chromosomal position within polarized Drosophila embryonic nuclei.
TL;DR: Using a high-resolution in situ hybridization method, it is found that each of 15 transcribed genes was localized as predicted by their chromosomal position and by the known polarized organization of the chromosomes.
Journal ArticleDOI
Visualizing chromatin and chromosomes in living cells.
TL;DR: The dynamic organization of eukaryotic genomes in cell nuclei recently came into the focus of research interest and appropriate labeling procedures as well as cell chamber systems and important controls for live cell microscopy are described.
References
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TL;DR: Data are presented for sequence-specific chromatin-loop organization in histone-depleted nuclei from Drosophila melanogaster Kc cells and a family of attachment sites related by hybridization to those of the hsp70 genes was discovered.
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Dean A. Jackson,Ana Pombo +1 more
TL;DR: It is proposed that the coordinated replication of related groups of replicons, that form stable replicon clusters, contributes to the efficient activation and propagation of S phase in mammalian cells.
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Karen E. Brown,Simon Guest,Stephen T. Smale,Kyungmin Hahm,Matthias Merkenschlager,Amanda G. Fisher +5 more
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
Peter Jeppesen,Bryan M. Turner +1 more
TL;DR: In this paper, immunolabeled human and mouse metaphase chromosomes with antibodies specific for the acetylated isoforms of histone H4 were labeled in regions corresponding to conventional R bands (regions enriched in coding DNA), except for a single chromosome in female cells.
Journal ArticleDOI
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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