| scholarly article | Q13442814 |
| P2093 | author name string | J Trowsdale | |
| R D Campbell | |||
| D Sheer | |||
| S Beck | |||
| J Ragoussis | |||
| T Jones | |||
| J Williamson | |||
| S H Powis | |||
| E V Volpi | |||
| M Goldsworthy | |||
| E Chevret | |||
| R Vatcheva | |||
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 12 | |
| P304 | page(s) | 1565-1576 | |
| P577 | publication date | 2000-05-01 | |
| P1433 | published in | Journal of Cell Science | Q1524177 |
| P1476 | title | Large-scale chromatin organization of the major histocompatibility complex and other regions of human chromosome 6 and its response to interferon in interphase nuclei | |
| P478 | volume | 113 ( Pt 9) |
| Q34165063 | 4D chromatin dynamics in cycling cells: Theodor Boveri's hypotheses revisited |
| Q34649355 | A conserved role for human Nup98 in altering chromatin structure and promoting epigenetic transcriptional memory |
| Q40634929 | A genetic analysis of chromosome territory looping: diverse roles for distal regulatory elements. |
| Q38173751 | A new take on v(d)j recombination: transcription driven nuclear and chromatin reorganization in rag-mediated cleavage. |
| Q24672840 | A novel role for Xist RNA in the formation of a repressive nuclear compartment into which genes are recruited when silenced |
| Q37260933 | A polymer model explains the complexity of large-scale chromatin folding |
| Q39889276 | A rapid simple approach to quantify chromosome conformation capture. |
| Q31126099 | A role for MeCP2 in switching gene activity via chromatin unfolding and HP1γ displacement |
| Q26785555 | Adipogenesis is under surveillance of Hsp90 and the high molecular weight Immunophilin FKBP51 |
| Q26801741 | An Overview of Genome Organization and How We Got There: from FISH to Hi-C |
| Q28475639 | Analysis of β-globin chromatin micro-environment using a novel 3C variant, 4Cv |
| Q35950042 | Antisense intergenic transcription precedes Igh D-to-J recombination and is controlled by the intronic enhancer Emu. |
| Q34834133 | Association between active genes occurs at nuclear speckles and is modulated by chromatin environment |
| Q41870931 | CTCF binds to sites in the major histocompatibility complex that are rapidly reconfigured in response to interferon-gamma |
| Q39239001 | Causes and consequences of nuclear gene positioning. |
| Q35295223 | Cell type specific alterations in interchromosomal networks across the cell cycle |
| Q82361761 | Cell type-specific chromatin decondensation of a metabolic gene cluster in oats |
| Q53863655 | Characterization of nuclear compartments identified by ectopic markers in mammalian cells with distinctly different karyotype. |
| Q24563638 | Chromatin decondensation and nuclear reorganization of the HoxB locus upon induction of transcription |
| Q34582972 | Chromatin domains and the interchromatin compartment form structurally defined and functionally interacting nuclear networks. |
| Q33950324 | Chromatin dynamics |
| Q33332212 | Chromatin dynamics during interphase explored by single-particle tracking |
| Q37257454 | Chromatin dynamics is correlated with replication timing |
| Q33800327 | Chromatin higher-order structure and dynamics |
| Q38737169 | Chromatin loops and causality loops: the influence of RNA upon spatial nuclear architecture |
| Q30486603 | Chromatin position in human HepG2 cells: although being non-random, significantly changed in daughter cells. |
| Q38790670 | Chromosomal aneuploidies induced upon Lamin B2 depletion are mislocalized in the interphase nucleus |
| Q59275101 | Chromosome positioning and male infertility: it comes with the territory |
| Q33693822 | Chromosome territories |
| Q38476920 | Chromosome territory arrangement and homologous pairing in nuclei of Arabidopsis thaliana are predominantly random except for NOR-bearing chromosomes |
| Q61818810 | Chromosome territory positioning of conserved homologous chromosomes in different primate species |
| Q36082296 | Chromosome territory reorganization in a human disease with altered DNA methylation |
| Q36470519 | Chromosomes at Work: Organization of Chromosome Territories in the Interphase Nucleus. |
| Q24675269 | Clustering of multiple specific genes and gene-rich R-bands around SC-35 domains: evidence for local euchromatic neighborhoods |
| Q27932659 | Clustering of yeast tRNA genes is mediated by specific association of condensin with tRNA gene transcription complexes. |
| Q28081315 | Coevolution of MHC genes (LMP/TAP/class Ia, NKT-class Ib, NKp30-B7H6): lessons from cold-blooded vertebrates |
| Q55421355 | Comparative analysis of 2D and 3D distance measurements to study spatial genome organization. |
| Q36342953 | Complexity of chromatin folding is captured by the strings and binders switch model |
| Q33306737 | Coordinate gene regulation during hematopoiesis is related to genomic organization |
| Q36116796 | Coregulated human globin genes are frequently in spatial proximity when active |
| Q40556942 | Cytogenetic and immuno-FISH analysis of the 4q subtelomeric region, which is associated with facioscapulohumeral muscular dystrophy |
| Q38844237 | Decoding transcriptional enhancers: Evolving from annotation to functional interpretation |
| Q42391391 | Developmental control of replication timing defines a new breed of chromosomal domains with a novel mechanism of chromatin unfolding |
| Q44936865 | Differences in centromere positioning of cycling and postmitotic human cell types |
| Q34883279 | Differential nuclear scaffold/matrix attachment marks expressed genes. |
| Q28542930 | Differential spatial repositioning of activated genes in Biomphalaria glabrata snails infected with Schistosoma mansoni |
| Q38704147 | Direct Observation of Cell-Cycle-Dependent Interactions between CTCF and Chromatin. |
| Q24796392 | Distinct genomic integration of MLV and SIV vectors in primate hematopoietic stem and progenitor cells |
| Q30582493 | Distinct nuclear orientation patterns for mouse chromosome 11 in normal B lymphocytes |
| Q35079071 | Drosophila dosage compensation: males are from Mars, females are from Venus |
| Q36527447 | Drosophila under the lens: imaging from chromosomes to whole embryos |
| Q38449200 | Dynamic changes of territories 17 and 18 during EBV-infection of human lymphocytes |
| Q34111011 | Dynamic plasticity of large-scale chromatin structure revealed by self-assembly of engineered chromosome regions |
| Q36482575 | Ectopic nuclear reorganisation driven by a Hoxb1 transgene transposed into Hoxd |
| Q35928743 | Enhancer and promoter interactions-long distance calls |
| Q37689552 | Epigenetic modifications in 3D: nuclear organization of the differentiating mammary epithelial cell. |
| Q36118184 | Folding and organization of a contiguous chromosome region according to the gene distribution pattern in primary genomic sequence |
| Q64261325 | From Human Cytogenetics to Human Chromosomics |
| Q39897951 | Gamma interferon-dependent transcriptional memory via relocalization of a gene locus to PML nuclear bodies |
| Q36216375 | Gene activation and deactivation related changes in the three-dimensional structure of chromatin |
| Q37236200 | Gene clusters, molecular evolution and disease: a speculation |
| Q38967772 | Gene density and chromosome territory shape |
| Q36324296 | Gene density and transcription influence the localization of chromatin outside of chromosome territories detectable by FISH. |
| Q30477787 | Gene expression within a dynamic nuclear landscape |
| Q33849394 | Gene positioning |
| Q33207927 | Generic features of tertiary chromatin structure as detected in natural chromosomes |
| Q39422331 | Genome architectures revealed by tethered chromosome conformation capture and population-based modeling |
| Q42251547 | Genome organization in three dimensions: thinking outside the line. |
| Q79846344 | Genome-wide scanning of HoxB1-associated loci in mouse ES cells using an open-ended Chromosome Conformation Capture methodology |
| Q38674458 | Genomic properties of chromosomal bands are linked to evolutionary rearrangements and new centromere formation in primates |
| Q35137108 | Heterochromatin in interphase nuclei of Arabidopsis thaliana |
| Q24647743 | Histone modifications and nuclear architecture: a review |
| Q38443197 | Human archival tissues provide a valuable source for the analysis of spatial genome organization |
| Q33886711 | Human cytomegalovirus IE1 protein elicits a type II interferon-like host cell response that depends on activated STAT1 but not interferon-γ |
| Q24794612 | Imaging genome abnormalities in cancer research |
| Q37480563 | In the loop: promoter-enhancer interactions and bioinformatics |
| Q27312643 | Innate structure of DNA foci restricts the mixing of DNA from different chromosome territories |
| Q42189404 | Insights into interphase large-scale chromatin structure from analysis of engineered chromosome regions |
| Q22162506 | Interchromosomal association and gene regulation in trans |
| Q33240304 | Intermingling of chromosome territories in interphase suggests role in translocations and transcription-dependent associations |
| Q34395180 | Interphase chromosomes in Arabidopsis are organized as well defined chromocenters from which euchromatin loops emanate |
| Q35691156 | Kaposi's Sarcoma-Associated Herpesvirus Genome Replication, Partitioning, and Maintenance in Latency |
| Q41813335 | Lack of bystander activation shows that localization exterior to chromosome territories is not sufficient to up-regulate gene expression |
| Q37237876 | Large-scale chromatin structure of inducible genes: transcription on a condensed, linear template. |
| Q36514617 | Large-scale probabilistic 3D organization of human chromosome territories |
| Q46560456 | Localization of rRNA genes in the nuclear space of Calliphora erythrocephala Mg. nurse cells during polytenization |
| Q34189725 | Maintenance of a functional higher order chromatin structure: The role of the nuclear matrix in normal and disease states. |
| Q36002526 | Maintenance of imprinting and nuclear architecture in cycling cells |
| Q33320550 | Maintenance of long-range DNA interactions after inhibition of ongoing RNA polymerase II transcription |
| Q34494545 | Mammalian non-classical major histocompatibility complex I and its receptors: Important contexts of gene, evolution, and immunity |
| Q36617270 | Mechanical regulation of nuclear structure and function. |
| Q36227827 | Mobility and immobility of chromatin in transcription and genome stability |
| Q36097826 | Mobility of multi-subunit complexes in the nucleus: accessibility and dynamics of chromatin subcompartments. |
| Q36955670 | Moving chromatin within the interphase nucleus-controlled transitions? |
| Q34846970 | Non-random organization of the Biomphalaria glabrata genome in interphase Bge cells and the spatial repositioning of activated genes in cells co-cultured with Schistosoma mansoni |
| Q38184290 | Nuclear architecture as an epigenetic regulator of neural development and function |
| Q30572560 | Nuclear compartmentalization of odorant receptor genes |
| Q47603216 | Nuclear organization during in vitro differentiation of porcine mesenchymal stem cells (MSCs) into adipocytes |
| Q34637812 | On emerging nuclear order |
| Q37208156 | Organization of the amplified type I interferon gene cluster and associated chromosome regions in the interphase nucleus of human osteosarcoma cells |
| Q24299467 | PML promotes MHC class II gene expression by stabilizing the class II transactivator |
| Q34565585 | Peripheral position of CCND1 and HER-2/neu oncogenes within chromosome territories in esophageal and gastric cancers non-related to amplification and overexpression |
| Q33522209 | Poised transcription factories prime silent uPA gene prior to activation. |
| Q39749756 | Positioning of NORs and NOR-bearing chromosomes in relation to nucleoli |
| Q38348005 | Preferential associations between co-regulated genes reveal a transcriptional interactome in erythroid cells |
| Q40205728 | Preservation of large-scale chromatin structure in FISH experiments. |
| Q36321821 | Promyelocytic leukemia nuclear bodies associate with transcriptionally active genomic regions |
| Q36666307 | Proximity-dependent and proximity-independent trans-splicing in mammalian cells |
| Q33293161 | Quantitative analysis of cell nucleus organisation. |
| Q37208453 | Radial chromatin positioning is shaped by local gene density, not by gene expression |
| Q39855827 | Rapid chromosome territory relocation by nuclear motor activity in response to serum removal in primary human fibroblasts |
| Q36961247 | Reconfiguration of genomic anchors upon transcriptional activation of the human major histocompatibility complex |
| Q34998176 | Relocalizing genetic loci into specific subnuclear neighborhoods |
| Q50788044 | Reorganization of the interchromosomal network during keratinocyte differentiation. |
| Q41977139 | Replication-timing-correlated spatial chromatin arrangements in cancer and in primate interphase nuclei |
| Q34786120 | Repositioning of Muscle-specific Genes Relative to the Periphery of SC-35 Domains during Skeletal Myogenesis |
| Q35454276 | Role of Shwachman-Bodian-Diamond syndrome protein in translation machinery and cell chemotaxis: a comparative genomics approach |
| Q37199529 | Silencing by nuclear matrix attachment distinguishes cell-type specificity: association with increased proliferation capacity |
| Q53494494 | Single-cell c-myc gene expression in relationship to nuclear domains. |
| Q38895607 | Single-cell genome-wide studies give new insight into nongenetic cell-to-cell variability in animals |
| Q33884101 | Sites that direct nuclear compartmentalization are near the 5' end of the mouse immunoglobulin heavy-chain locus |
| Q26738275 | Spatial Genome Organization and Its Emerging Role as a Potential Diagnosis Tool |
| Q34189515 | Spatial association of homologous pericentric regions in human lymphocyte nuclei during repair |
| Q35650635 | Spatial genome organization in the formation of chromosomal translocations |
| Q36325226 | Spatial organization of active and inactive genes and noncoding DNA within chromosome territories |
| Q37591321 | Spatial organization of genes as a component of regulated expression |
| Q35128056 | Spatial organization of transcription by RNA polymerase III. |
| Q37302442 | Spatio-temporal dynamics of replication and transcription sites in the mammalian cell nucleus |
| Q39451542 | Specific positioning of the casein gene cluster in active nuclear domains in luminal mammary epithelial cells. |
| Q27303613 | Sperm nuclear architecture is locally modified in presence of a Robertsonian translocation t(13;17) |
| Q39678226 | Stable morphology, but dynamic internal reorganisation, of interphase human chromosomes in living cells |
| Q33803135 | Structure and epigenetics of nucleoli in comparison with non-nucleolar compartments |
| Q33337139 | Targeted deficiency of the transcriptional activator Hnf1alpha alters subnuclear positioning of its genomic targets |
| Q78708028 | The 3D structure of human chromosomes in cell nuclei |
| Q37023583 | The A- and B-type nuclear lamin networks: microdomains involved in chromatin organization and transcription |
| Q33938612 | The D4Z4 repeat-mediated pathogenesis of facioscapulohumeral muscular dystrophy |
| Q38487271 | The DNA-based structure of human chromosome 5 in interphase |
| Q45324795 | The Epstein-Barr virus episome maneuvers between nuclear chromatin compartments during reactivation |
| Q61812331 | The Genomic Health of Human Pluripotent Stem Cells: Genomic Instability and the Consequences on Nuclear Organization |
| Q30477370 | The X chromosome is organized into a gene-rich outer rim and an internal core containing silenced nongenic sequences |
| Q35033742 | The active FMR1 promoter is associated with a large domain of altered chromatin conformation with embedded local histone modifications |
| Q24802121 | The architecture of chicken chromosome territories changes during differentiation |
| Q37641448 | The architecture of functional neighborhoods within the mammalian cell nucleus |
| Q52734044 | The changes in chromosome 6 spatial organization during chromatin polytenization in the Calliphora erythrocephala Mg. (Diptera: Calliphoridae) nurse cells. |
| Q36245342 | The genome and the nucleus: a marriage made by evolution. Genome organisation and nuclear architecture |
| Q41877925 | The locus control region is required for association of the murine beta-globin locus with engaged transcription factories during erythroid maturation |
| Q30310624 | The matrix attachment region in the Chinese hamster dihydrofolate reductase origin of replication may be required for local chromatid separation |
| Q42537532 | The pattern of chromosome folding in interphase is outlined by the linear gene density profile |
| Q57951129 | The radial arrangement of the human chromosome 7 in the lymphocyte cell nucleus is associated with chromosomal band gene density |
| Q39262410 | The radial nuclear positioning of genes correlates with features of megabase-sized chromatin domains. |
| Q34038183 | The role of nuclear bodies in gene expression and disease |
| Q58124524 | The spatial repositioning of adipogenesis genes is correlated with their expression status in a porcine mesenchymal stem cell adipogenesis model system |
| Q36428117 | The temporal program of DNA replication: new insights into old questions |
| Q35857089 | The three-dimensional structure of human interphase chromosomes is related to the transcriptome map. |
| Q63242635 | Three-dimensional analysis of nuclear heterochromatin distribution during early development in the rabbit |
| Q61864005 | Three-dimensional arrangements of centromeres and telomeres in nuclei of human and murine lymphocytes |
| Q34466522 | Three-dimensional genome architecture: players and mechanisms |
| Q52345221 | Three-dimensional organization and dynamics of the genome. |
| Q39965911 | Three-dimensional positioning of genes in mouse cell nuclei. |
| Q30584755 | Three-dimensional super-resolution microscopy of the inactive X chromosome territory reveals a collapse of its active nuclear compartment harboring distinct Xist RNA foci |
| Q36698100 | Tissue-of-origin-specific gene repositioning in breast and prostate cancer. |
| Q36742922 | Topologically associated domains enriched for lineage-specific genes reveal expression-dependent nuclear topologies during myogenesis. |
| Q36491900 | Transcription and chromatin organization of a housekeeping gene cluster containing an integrated beta-globin locus control region |
| Q41816824 | Transcription factories are nuclear subcompartments that remain in the absence of transcription |
| Q38401966 | Transcription-dependent radial distribution of TCF7L2 regulated genes in chromosome territories |
| Q24677170 | Transcription-dependent spatial arrangements of CFTR and adjacent genes in human cell nuclei |
| Q39992374 | Transcription-dependent spatial arrangements of CFTR and conserved adjacent loci are not conserved in human and murine nuclei |
| Q35960154 | Transcriptional Pathways in cPGI2-Induced Adipocyte Progenitor Activation for Browning. |
| Q37304680 | Transcriptional competence of the integrated HIV-1 provirus at the nuclear periphery |
| Q44611223 | Transcriptomic and nuclear architecture of immune cells after LPS activation. |
| Q36346962 | Visualization of the spatial positioning of the SNRPN, UBE3A, and GABRB3 genes in the normal human nucleus by three-color 3D fluorescence in situ hybridization |
Search more.