| scholarly article | Q13442814 |
| P356 | DOI | 10.1038/NG1051 |
| P2888 | exact match | https://scigraph.springernature.com/pub.10.1038/ng1051 |
| P698 | PubMed publication ID | 12426570 |
| P5875 | ResearchGate publication ID | 11039634 |
| P50 | author | Peter Fraser | Q55302636 |
| Cameron S. Osborne | Q55966321 | ||
| P2093 | author name string | Lyubomira Chakalova | |
| David Carter | |||
| Yan-feng Dai | |||
| P2860 | cites work | Each hypersensitive site of the human beta-globin locus control region confers a different developmental pattern of expression on the globin genes. | Q52228044 |
| Importance of globin gene order for correct developmental expression. | Q52236177 | ||
| Developmental regulation of beta-globin gene switching. | Q52249886 | ||
| Telomere looping permits gene activation by a downstream UAS in yeast | Q59070403 | ||
| Looping versus linking: toward a model for long-distance gene activation | Q33751844 | ||
| An erythroid-specific, developmental-stage-independent enhancer far upstream of the human "beta-like globin" genes | Q33849519 | ||
| Looping, linking, and chromatin activity: new insights into beta-globin locus regulation | Q33866277 | ||
| The SV40 72 base repair repeat has a striking effect on gene expression both in SV40 and other chimeric recombinants | Q34055183 | ||
| Nuclear compartmentalization and gene activity | Q34186324 | ||
| A large upstream region is not necessary for gene expression or hypersensitive site formation at the mouse beta -globin locus | Q35849428 | ||
| Transcription of the hypersensitive site HS2 enhancer in erythroid cells | Q37313807 | ||
| Mechanisms of developmental control of transcription in the murine alpha- and beta-globin loci | Q40442072 | ||
| Regulation of beta-globin gene expression: straightening out the locus. | Q41100017 | ||
| Chromatin interaction mechanism of transcriptional control in vivo | Q41875311 | ||
| Targeted deletion of 5'HS1 and 5'HS4 of the beta-globin locus control region reveals additive activity of the DNaseI hypersensitive sites | Q43745303 | ||
| An enhancer stimulates transcription in trans when attached to the promoter via a protein bridge | Q44199530 | ||
| Going the distance: a current view of enhancer action | Q46076458 | ||
| Beta-globin gene switching and DNase I sensitivity of the endogenous beta-globin locus in mice do not require the locus control region. | Q52167088 | ||
| Transcription complex stability and chromatin dynamics in vivo. | Q52205958 | ||
| Developmental regulation of human beta-globin gene transcription: a switch of loyalties? | Q52223251 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 623-626 | |
| P577 | publication date | 2002-11-11 | |
| P1433 | published in | Nature Genetics | Q976454 |
| P1476 | title | Long-range chromatin regulatory interactions in vivo | |
| P478 | volume | 32 |
| Q54730321 | 3C technology: analyzing the spatial organization of genomic loci in vivo. |
| Q42772109 | 3C-based technologies to study the shape of the genome |
| Q91832853 | 3D genome organization during lymphocyte development and activation |
| Q37025407 | 3D genome organization in health and disease: emerging opportunities in cancer translational medicine |
| Q92879976 | A Cohesin-Mediated Intrachromosomal Loop Drives Oncogenic ROR lncRNA to Accelerate Tumorigenesis |
| Q38177591 | A Crowdsourced nucleus: understanding nuclear organization in terms of dynamically networked protein function. |
| Q37057003 | A Human Globin Enhancer Causes both Discrete and Widespread Alterations in Chromatin Structure |
| Q41809527 | A Melanesian alpha-thalassemia mutation suggests a novel mechanism for regulating gene expression |
| Q34697724 | A Sox2 distal enhancer cluster regulates embryonic stem cell differentiation potential |
| Q24530140 | A capsid-modified helper-dependent adenovirus vector containing the beta-globin locus control region displays a nonrandom integration pattern and allows stable, erythroid-specific gene expression |
| Q35162569 | A closer look at long-range chromosomal interactions |
| Q36059486 | A facilitated tracking and transcription mechanism of long-range enhancer function |
| Q33375719 | A functional role for 4qA/B in the structural rearrangement of the 4q35 region and in the regulation of FRG1 and ANT1 in facioscapulohumeral dystrophy |
| Q34331241 | A genome-wide 3C-method for characterizing the three-dimensional architectures of genomes |
| Q35162894 | A major role for the TATA box in recruitment of chromatin modifying complexes to a globin gene promoter |
| Q52585542 | A mechanism for Ikaros regulation of human globin gene switching. |
| Q43141166 | A molecular dissection of nuclear function. Conference on the dynamic nucleus: questions and implications |
| Q37887557 | A scaffold for X chromosome inactivation. |
| Q37029654 | A tyrosine hydroxylase-yellow fluorescent protein knock-in reporter system labeling dopaminergic neurons reveals potential regulatory role for the first intron of the rodent tyrosine hydroxylase gene. |
| Q33267292 | A weakened transcriptional enhancer yields variegated gene expression |
| Q47298164 | AML1/ETO trans-activates c-KIT expression through the long range interaction between promoter and intronic enhancer |
| Q34718310 | Active chromatin hub of the mouse alpha-globin locus forms in a transcription factory of clustered housekeeping genes |
| Q34347615 | Active genes dynamically colocalize to shared sites of ongoing transcription |
| Q35470929 | Active opsin loci adopt intrachromosomal loops that depend on the photoreceptor transcription factor network |
| Q33613273 | All of the human beta-type globin genes compete for LCR enhancer activity in embryonic erythroid cells of yeast artificial chromosome transgenic mice |
| Q35844259 | Altered regulation of beta-like globin genes by a redesigned erythroid transcription factor |
| Q26801741 | An Overview of Genome Organization and How We Got There: from FISH to Hi-C |
| Q35943957 | An RNA-independent linkage of noncoding transcription to long-range enhancer function |
| Q35164202 | An epigenetic view of helper T cell differentiation |
| Q47690034 | An evolutionarily conserved nested gene pair - Mab21 and Lrba/Nbea in metazoan. |
| Q40068691 | An insulator blocks spreading of histone acetylation and interferes with RNA polymerase II transfer between an enhancer and gene |
| Q92616539 | An intergenic non-coding RNA promoter required for histone modifications in the human β-globin chromatin domain |
| Q33850615 | An international effort to cure a global health problem: A report on the 19th Hemoglobin Switching Conference |
| Q29541719 | An oestrogen-receptor-α-bound human chromatin interactome |
| Q42372031 | Analysis of distant communication on defined chromatin templates in vitro. |
| Q36602330 | Analysis of intergenic transcription in the human IL-4/IL-13 gene cluster |
| Q35856849 | Analysis of the H19ICR insulator |
| Q28475639 | Analysis of β-globin chromatin micro-environment using a novel 3C variant, 4Cv |
| Q36485572 | Applying whole-genome studies of epigenetic regulation to study human disease |
| Q35131178 | Autonomous actions of the human growth hormone long-range enhancer |
| Q27313851 | Beta-globin LCR and intron elements cooperate and direct spatial reorganization for gene therapy |
| Q35856822 | Beta-globin intergenic transcription and histone acetylation dependent on an enhancer |
| Q34771386 | Beta-globin locus control region HS2 and HS3 interact structurally and functionally |
| Q37087577 | Beta-globin regulation and long-range interactions |
| Q34961966 | Binding of TFIIIC to sine elements controls the relocation of activity-dependent neuronal genes to transcription factories |
| Q36395025 | Biological consequences of tightly bent DNA: the other life of a macromolecular celebrity |
| Q28263436 | Blue eye color in humans may be caused by a perfectly associated founder mutation in a regulatory element located within the HERC2 gene inhibiting OCA2 expression |
| Q37581476 | Bystander gene activation by a locus control region |
| Q93040670 | CDK-Mediator and FBXL19 prime developmental genes for activation by promoting atypical regulatory interactions |
| Q34119785 | CTCF controls expression and chromatin architecture of the human major histocompatibility complex class II locus |
| Q28590210 | CTCF mediates long-range chromatin looping and local histone modification in the beta-globin locus |
| Q34021284 | CTCF shapes chromatin by multiple mechanisms: the impact of 20 years of CTCF research on understanding the workings of chromatin |
| Q28242132 | CTCF tethers an insulator to subnuclear sites, suggesting shared insulator mechanisms across species |
| Q24646679 | CTCF-dependent enhancer-blocking by alternative chromatin loop formation |
| Q43413032 | Capture hybridization analysis of RNA targets (CHART). |
| Q37071189 | Cell signaling pathways involved in drug-mediated fetal hemoglobin induction: Strategies to treat sickle cell disease |
| Q52610219 | Cell-Specific PEAR1 Methylation Studies Reveal a Locus that Coordinates Expression of Multiple Genes. |
| Q34394806 | ChIA-PET analysis of transcriptional chromatin interactions. |
| Q26784164 | Chromatin Insulators and Topological Domains: Adding New Dimensions to 3D Genome Architecture |
| Q37374740 | Chromatin architecture and transcription factor binding regulate expression of erythrocyte membrane protein genes |
| Q37289730 | Chromatin architecture underpinning transcription elongation |
| Q28071827 | Chromatin boundary elements organize genomic architecture and developmental gene regulation in Drosophila Hox clusters |
| Q37779312 | Chromatin conformation signatures: ideal human disease biomarkers? |
| Q34144645 | Chromatin domain activation via GATA-1 utilization of a small subset of dispersed GATA motifs within a broad chromosomal region |
| Q35217747 | Chromatin folding and gene expression: new tools to reveal the spatial organization of genes |
| Q33523549 | Chromatin interaction analysis using paired-end tag sequencing. |
| Q41846416 | Chromatin isolation by RNA purification (ChIRP). |
| Q34276131 | Chromatin loop formation in the β-globin locus and its role in globin gene transcription |
| Q37233805 | Chromatin loops in gene regulation |
| Q36323276 | Chromatin loops, gene positioning, and gene expression |
| Q41146853 | Chromatin organization and transcriptional activation of Hox genes |
| Q35983679 | Chromatin organization in the mammalian nucleus |
| Q36406546 | Chromatin physics: Replacing multiple, representation-centered descriptions at discrete scales by a continuous, function-dependent self-scaled model |
| Q36394144 | Chromatin structure and gene regulation in T cell development and function |
| Q28262061 | Chromosome Conformation Capture Carbon Copy (5C): a massively parallel solution for mapping interactions between genomic elements |
| Q89451441 | Chromosome Conformation Capture and Beyond: Toward an Integrative View of Chromosome Structure and Function |
| Q90206056 | Chromosome Territorial Organization Drives Efficient Protein Complex Formation: A Hypothesis |
| Q36238491 | Chromosome loops, insulators, and histone methylation: new insights into regulation of imprinting in clusters. |
| Q91140229 | Chromosome territories and the global regulation of the genome |
| Q36470519 | Chromosomes at Work: Organization of Chromosome Territories in the Interphase Nucleus. |
| Q39383182 | Co-regulation of paralog genes in the three-dimensional chromatin architecture |
| Q51590851 | Coactivators p300 and CBP maintain the identity of mouse embryonic stem cells by mediating long-range chromatin structure. |
| Q34979002 | Cohesin mediates chromatin interactions that regulate mammalian β-globin expression |
| Q36439516 | Colocalization of multiple DNA loci: a physical mechanism |
| Q38557052 | Coming to terms with chromatin structure |
| Q35191582 | Communication over a large distance: enhancers and insulators |
| Q37073033 | Comparative and evolutionary genomics of globin genes in fish |
| Q34975754 | Comprehensive characterization of erythroid-specific enhancers in the genomic regions of human Krüppel-like factors |
| Q31132786 | Computational Approaches for Mining GRO-Seq Data to Identify and Characterize Active Enhancers |
| Q48090599 | Conserved elements in Pax6 intron 7 involved in (auto)regulation and alternative transcription |
| Q35733779 | Context-dependent regulation of GATA-1 by friend of GATA-1. |
| Q28268499 | Controlling long-range genomic interactions at a native locus by targeted tethering of a looping factor |
| Q42014832 | Cooperativeness of the higher chromatin structure of the beta-globin locus revealed by the deletion mutations of DNase I hypersensitive site 3 of the LCR. |
| Q40553793 | Cooperativity in long-range gene regulation by the lambda CI repressor. |
| Q36804831 | Cross-species de novo identification of cis-regulatory modules with GibbsModule: application to gene regulation in embryonic stem cells |
| Q24816262 | DNA looping induced by a transcriptional enhancer in vivo |
| Q59071144 | DNA triplet repeats mediate heterochromatin-protein-1-sensitive variegated gene silencing |
| Q39597789 | DT40 knock-out and knock-in studies determine the regions necessary and sufficient for transcription and epigenetic conversion of the chicken Ig-β gene |
| Q84273227 | Decoding the genome beyond sequencing: the new phase of genomic research |
| Q93169069 | Decreased Enhancer-Promoter Proximity Accompanying Enhancer Activation |
| Q37410751 | Defective erythropoiesis in transgenic mice expressing dominant-negative upstream stimulatory factor |
| Q64080066 | Development of enhancer-trapping and -detection vectors mediated by the transposon in zebrafish |
| Q33782323 | Developmental stage differences in chromatin subdomains of the beta-globin locus |
| Q47140626 | Developmentally regulated higher-order chromatin interactions orchestrate B cell fate commitment |
| Q39756594 | Developmentally regulated recruitment of transcription factors and chromatin modification activities to chicken lysozyme cis-regulatory elements in vivo |
| Q41841517 | Differentiation of core promoter architecture between plants and mammals revealed by LDSS analysis. |
| Q35017687 | Direct interactions of OCA-B and TFII-I regulate immunoglobulin heavy-chain gene transcription by facilitating enhancer-promoter communication |
| Q35581580 | Discriminative prediction of mammalian enhancers from DNA sequence. |
| Q40588887 | Disruption of the mechanism of long range activation within the human alpha-globin complex |
| Q37701311 | Dissecting the function of the adult β-globin downstream promoter region using an artificial zinc finger DNA-binding domain |
| Q35604079 | Distinct Ldb1/NLI complexes orchestrate γ-globin repression and reactivation through ETO2 in human adult erythroid cells |
| Q38411463 | Distinct functions of dispersed GATA factor complexes at an endogenous gene locus |
| Q37769635 | Do chromatin loops provide epigenetic gene expression states? |
| Q52685340 | Drosophila gypsy insulator and yellow enhancers regulate activity of yellow promoter through the same regulatory element. |
| Q37277044 | Drosophila nipped-B protein supports sister chromatid cohesion and opposes the stromalin/Scc3 cohesion factor to facilitate long-range activation of the cut gene |
| Q59709251 | Dynamic interplay between enhancer-promoter topology and gene activity |
| Q34111011 | Dynamic plasticity of large-scale chromatin structure revealed by self-assembly of engineered chromosome regions |
| Q39141712 | EMERGE: a flexible modelling framework to predict genomic regulatory elements from genomic signatures. |
| Q36010921 | Effect of Interaction between Chromatin Loops on Cell-to-Cell Variability in Gene Expression |
| Q39522623 | Electromobility Shift Assay Reveals Evidence in Favor of Allele-Specific Binding of RUNX1 to the 5' Hypersensitive Site 4-Locus Control Region. |
| Q40146211 | Embryonic and fetal beta-globin gene repression by the orphan nuclear receptors, TR2 and TR4. |
| Q36238612 | Emerging roles of Polycomb silencing in X-inactivation and stem cell maintenance. |
| Q37591357 | Emerging similarities in epigenetic gene silencing by long noncoding RNAs |
| Q60950216 | Engineering Globin Gene Expression |
| Q38779188 | Enhancer Regulation of Transcriptional Bursting Parameters Revealed by Forced Chromatin Looping |
| Q35928743 | Enhancer and promoter interactions-long distance calls |
| Q36391772 | Enhancer blocking and transvection at the Drosophila apterous locus |
| Q39358195 | Enhancer identification in mouse embryonic stem cells using integrative modeling of chromatin and genomic features |
| Q24671986 | Enhancer-promoter communication at the yellow gene of Drosophila melanogaster: diverse promoters participate in and regulate trans interactions |
| Q41232818 | Enhancers and silencers: an integrated and simple model for their function |
| Q36995427 | Enhancing nuclear receptor-induced transcription requires nuclear motor and LSD1-dependent gene networking in interchromatin granules |
| Q37087623 | Epigenetic control of complex loci during erythropoiesis |
| Q36098657 | Epigenetic modifications and chromosome conformations of the beta globin locus throughout development |
| Q37257146 | Epigenetics of beta-globin gene regulation |
| Q36783175 | Epigenetics of long-range chromatin interactions |
| Q34043681 | Epigenome editing by a CRISPR-Cas9-based acetyltransferase activates genes from promoters and enhancers. |
| Q28263560 | Erythroid GATA1 function revealed by genome-wide analysis of transcription factor occupancy, histone modifications, and mRNA expression |
| Q36557554 | Establishment and regulation of chromatin domains: mechanistic insights from studies of hemoglobin synthesis. |
| Q33596085 | Evolution and functional classification of vertebrate gene deserts |
| Q34034627 | Evolution of hemoglobin and its genes |
| Q46320647 | Evolution of hemoglobin loci and their regulatory elements |
| Q26822810 | Fetal globin gene repressors as drug targets for molecular therapies to treat the β-globinopathies |
| Q33287630 | Finding cis-regulatory elements using comparative genomics: some lessons from ENCODE data |
| Q52714809 | Formation of correlated chromatin domains at nanoscale dynamic resolution during transcription. |
| Q35075530 | Formation of functional centromeric chromatin is specified epigenetically in Candida albicans |
| Q91747940 | Functional genomic approaches to elucidate the role of enhancers during development |
| Q40195216 | Functional interaction between PML and SATB1 regulates chromatin-loop architecture and transcription of the MHC class I locus. |
| Q37772648 | Functional nuclear architecture studied by microscopy: present and future |
| Q33823866 | GATA1 function, a paradigm for transcription factors in hematopoiesis |
| Q35764282 | Gain of cis-regulatory activities underlies novel domains of wingless gene expression in Drosophila |
| Q57809038 | Gene Gangs of the Chloroviruses: Conserved Clusters of Collinear Monocistronic Genes |
| Q64054412 | Gene activation by a CRISPR-assisted enhancer |
| Q42633677 | Gene loops juxtapose promoters and terminators in yeast |
| Q37835516 | Gene positioning and expression |
| Q34498169 | Gene regulation and large-scale chromatin organization in the nucleus |
| Q50061134 | Genetic Basis and Genetic Modifiers of β-Thalassemia and Sickle Cell Disease. |
| Q35626388 | Genetic insights into the clinical diversity of beta thalassaemia |
| Q37311642 | Genetic polymorphisms in the TATA box and upstream phenobarbital-responsive enhancer module of the UGT1A1 promoter have combined effects on UDP-glucuronosyltransferase 1A1 transcription mediated by constitutive androstane receptor, pregnane X recept |
| Q34045766 | Genome-wide analysis of estrogen receptor alpha DNA binding and tethering mechanisms identifies Runx1 as a novel tethering factor in receptor-mediated transcriptional activation |
| Q33761664 | Genome-wide analysis of functional and evolutionary features of tele-enhancers |
| Q79846344 | Genome-wide scanning of HoxB1-associated loci in mouse ES cells using an open-ended Chromosome Conformation Capture methodology |
| Q33611702 | Genome-wide views of chromatin structure |
| Q60097613 | Genomes in three dimensions |
| Q34986939 | Genomic imprinting controls matrix attachment regions in the Igf2 gene |
| Q29617830 | Genomic maps of long noncoding RNA occupancy reveal principles of RNA-chromatin interactions |
| Q22122210 | Genomic views of distant-acting enhancers |
| Q36409603 | Global changes in the nuclear positioning of genes and intra- and interdomain genomic interactions that orchestrate B cell fate |
| Q36742512 | H3 K79 dimethylation marks developmental activation of the beta-globin gene but is reduced upon LCR-mediated high-level transcription |
| Q33722642 | H4R3 methylation facilitates beta-globin transcription by regulating histone acetyltransferase binding and H3 acetylation |
| Q39918443 | HS5 of the human beta-globin locus control region: a developmental stage-specific border in erythroid cells. |
| Q33905835 | Hierarchies in eukaryotic genome organization: Insights from polymer theory and simulations |
| Q36480890 | High Fractional Occupancy of a Tandem Maf Recognition Element and Its Role in Long-Range β-Globin Gene Regulation |
| Q35920505 | Highly restricted localization of RNA polymerase II within a locus control region of a tissue-specific chromatin domain |
| Q35550640 | Human Nonsyndromic Sensorineural Deafness |
| Q43781207 | Hypermethylation of the gene LARP2 for noninvasive prenatal diagnosis of β-thalassemia based on DNA methylation profile |
| Q81168086 | Hypersensitive site 7 of the TH2 locus control region is essential for expressing TH2 cytokine genes and for long-range intrachromosomal interactions |
| Q35829322 | Idefix insulator activity can be modulated by nearby regulatory elements |
| Q34223145 | Identification of a DNA-binding site and transcriptional target for the EWS-WT1(+KTS) oncoprotein |
| Q34124980 | Identification of a PRMT5-dependent repressor complex linked to silencing of human fetal globin gene expression |
| Q58740126 | Identification of a novel enhancer/chromatin opening element associated with high-level γ-globin gene expression |
| Q38457166 | Identification of coupling DNA motif pairs on long-range chromatin interactions in human K562 cells |
| Q24306418 | Identification of novel binding elements and gene targets for the homeodomain protein BARX2 |
| Q33277437 | Identification of plant promoter constituents by analysis of local distribution of short sequences |
| Q36772548 | Identifying gene locus associations with promyelocytic leukemia nuclear bodies using immuno-TRAP. |
| Q43173456 | Ikaros and GATA-1 combinatorial effect is required for silencing of human gamma-globin genes |
| Q39055780 | In the loop: how chromatin topology links genome structure to function in mechanisms underlying learning and memory |
| Q34580688 | In the loop: long range chromatin interactions and gene regulation |
| Q33413075 | Inter-MAR association contributes to transcriptionally active looping events in human beta-globin gene cluster |
| Q42632085 | Interaction between differentially methylated regions partitions the imprinted genes Igf2 and H19 into parent-specific chromatin loops |
| Q22162506 | Interchromosomal association and gene regulation in trans |
| Q28254529 | Interchromosomal interactions and olfactory receptor choice |
| Q33291120 | Intergenic transcription, cell-cycle and the developmentally regulated epigenetic profile of the human beta-globin locus |
| Q33240304 | Intermingling of chromosome territories in interphase suggests role in translocations and transcription-dependent associations |
| Q81030731 | Interspecific chromosome-wide transcription profiles reveal the existence of mammalian-specific and species-specific chromosome domains |
| Q50117371 | Investigation of the spatial structure and interactions of the genome at sub-kilobase-pair resolution using T2C. |
| Q42950072 | KLF1 regulates BCL11A expression and γ- to β-globin gene switching |
| Q92915899 | KLF4 protein stability regulated by interaction with pluripotency transcription factors overrides transcriptional control |
| Q37371658 | Lactogenic hormonal induction of long distance interactions between beta-casein gene regulatory elements |
| Q28592966 | Lineage-Specific Genome Architecture Links Enhancers and Non-coding Disease Variants to Target Gene Promoters |
| Q34972729 | Lineage-specific activators affect beta-globin locus chromatin in multipotent hematopoietic progenitors |
| Q35950235 | Linear distance from the locus control region determines epsilon-globin transcriptional activity |
| Q47886485 | Link between embryonic stem cell pluripotency and homologous allelic pairing of Oct4 loci. |
| Q39454814 | Long non-coding RNAs as novel players in β cell function and type 1 diabetes |
| Q37123083 | Long-range chromosomal interactions and gene regulation |
| Q33938801 | Long-range control of gene expression: emerging mechanisms and disruption in disease |
| Q92000591 | Long-range enhancer-promoter contacts in gene expression control |
| Q37087615 | Long-range gene control and genetic disease |
| Q33724374 | Long-range interactions between three transcriptional enhancers, active Vkappa gene promoters, and a 3' boundary sequence spanning 46 kilobases |
| Q80587027 | Long-range intrachromosomal interactions in the T helper type 2 cytokine locus |
| Q38053130 | Long-range transcriptional regulation of breast cancer genes |
| Q28592236 | Loss of silent-chromatin looping and impaired imprinting of DLX5 in Rett syndrome |
| Q28537973 | MBD3 localizes at promoters, gene bodies and enhancers of active genes |
| Q33320550 | Maintenance of long-range DNA interactions after inhibition of ongoing RNA polymerase II transcription |
| Q64949879 | Mapping 3D genome organization relative to nuclear compartments using TSA-Seq as a cytological ruler. |
| Q38193810 | Mechanisms and proteins involved in long-distance interactions |
| Q26861558 | Mechanisms of cohesin-mediated gene regulation and lessons learned from cohesinopathies |
| Q35623181 | Mechanisms of insulator function in gene regulation and genomic imprinting |
| Q36069683 | Mechanisms of long range silencing by imprinted macro non-coding RNAs. |
| Q28303872 | Meet the neighbours: tools to dissect nuclear structure and function |
| Q91026908 | Methods for mapping three-dimensional genome architecture |
| Q51418477 | Microfluidics-Based Chromosome Conformation Capture (3C) Technology for Examining Chromatin Organization with a Low Quantity of Cells. |
| Q39399184 | Molecular basis of β thalassemia and potential therapeutic targets |
| Q36955670 | Moving chromatin within the interphase nucleus-controlled transitions? |
| Q28509849 | Multiple functions of Ldb1 required for beta-globin activation during erythroid differentiation |
| Q34511091 | Multiple interactions between regulatory regions are required to stabilize an active chromatin hub. |
| Q37783400 | Neural Map Formation in the Mouse Olfactory System |
| Q64106669 | New insights emerge as antibody repertoire diversification meets chromosome conformation |
| Q34499614 | Nuclear RNA sequencing of the mouse erythroid cell transcriptome |
| Q38493571 | Nuclear matrix association of the human beta-globin locus utilizing a novel approach to quantitative real-time PCR |
| Q37091501 | Nuclear receptor location analyses in mammalian genomes: from gene regulation to regulatory networks |
| Q39999641 | Nuclear receptor-enhanced transcription requires motor- and LSD1-dependent gene networking in interchromatin granules |
| Q33791130 | Nucleosome eviction and multiple co-factor binding predict estrogen-receptor-alpha-associated long-range interactions |
| Q37776373 | Organization of Transcription |
| Q36226173 | Organizing the genome: enhancers and insulators |
| Q35560939 | PAX6 and congenital eye malformations. |
| Q37432768 | PRMT5-mediated methylation of histone H4R3 recruits DNMT3A, coupling histone and DNA methylation in gene silencing. |
| Q89992769 | Phase Separation and Transcription Regulation: Are Super-Enhancers and Locus Control Regions Primary Sites of Transcription Complex Assembly? |
| Q33942163 | Position effects due to chromosome breakpoints that map approximately 900 Kb upstream and approximately 1.3 Mb downstream of SOX9 in two patients with campomelic dysplasia |
| Q39463469 | Possible interaction between B1 retrotransposon-containing sequences and β(major) globin gene transcriptional activation during MEL cell erythroid differentiation |
| Q37953789 | Progeria Research Day at Brunel University |
| Q90236742 | Promoter Capture Hi-C: High-resolution, Genome-wide Profiling of Promoter Interactions |
| Q34408859 | Quantitation of interactions between two DNA loops demonstrates loop domain insulation in E. coli cells |
| Q34581232 | Quantitative analysis of chromosome conformation capture assays (3C-qPCR). |
| Q51053304 | RNA fluorescence in situ hybridization tagging and recovery of associated proteins to analyze in vivo chromatin interactions. |
| Q24336420 | RUNX1 regulates the CD34 gene in haematopoietic stem cells by mediating interactions with a distal regulatory element |
| Q38812960 | Rapamycin reduces fibroblast proliferation without causing quiescence and induces STAT5A/B-mediated cytokine production |
| Q34052021 | Reactivation of developmentally silenced globin genes by forced chromatin looping. |
| Q33669301 | Reciprocal regulation of γ-globin expression by exo-miRNAs: Relevance to γ-globin silencing in β-thalassemia major. |
| Q36961247 | Reconfiguration of genomic anchors upon transcriptional activation of the human major histocompatibility complex |
| Q41429512 | Recovering ensembles of chromatin conformations from contact probabilities |
| Q36994652 | Recruitment of transcription complexes to the beta-globin gene locus in vivo and in vitro |
| Q28507941 | Regulation of alphaA-crystallin via Pax6, c-Maf, CREB and a broad domain of lens-specific chromatin |
| Q36234547 | Regulation of human fetal hemoglobin: new players, new complexities |
| Q38999725 | Regulatory Enhancer-Core-Promoter Communication via Transcription Factors and Cofactors. |
| Q36088911 | Remote control of gene transcription |
| Q34442158 | Replication and transcription: shaping the landscape of the genome |
| Q36253764 | Rfx2 Stabilizes Foxj1 Binding at Chromatin Loops to Enable Multiciliated Cell Gene Expression. |
| Q38904253 | Runx1 Structure and Function in Blood Cell Development |
| Q37164427 | S-S synapsis during class switch recombination is promoted by distantly located transcriptional elements and activation-induced deaminase |
| Q45944230 | SATB1 packages densely looped, transcriptionally active chromatin for coordinated expression of cytokine genes. |
| Q40002893 | SATB1 reprogrammes gene expression to promote breast tumour growth and metastasis |
| Q33642416 | SATB1-mediated functional packaging of chromatin into loops |
| Q40070793 | STAT5A is epigenetically silenced by the tyrosine kinase NPM1-ALK and acts as a tumor suppressor by reciprocally inhibiting NPM1-ALK expression |
| Q51539171 | Sensitive detection of chromatin coassociations using enhanced chromosome conformation capture on chip. |
| Q50317000 | Setting an immuno-TRAP for PML nuclear bodies. |
| Q45885224 | Shortened ALK1 regulatory fragment maintains a specific activity in arteries feeding ischemic tissues |
| Q41000070 | Sixty years of genome biology |
| Q34230157 | Spatial organization of gene expression: the active chromatin hub. |
| Q35128056 | Spatial organization of transcription by RNA polymerase III. |
| Q39846861 | Structural rules and complex regulatory circuitry constrain expression of a Notch- and EGFR-regulated eye enhancer |
| Q37866375 | Structure and function of active chromatin and DNase I hypersensitive sites. |
| Q43482821 | Study of distant interactions of LCR from the Drosophila melanogaster locus CUT. |
| Q41841751 | Study of long-distance functional interactions between Su(Hw) insulators that can regulate enhancer-promoter communication in Drosophila melanogaster |
| Q41785750 | Study of the functional interaction between Mcp insulators from the Drosophila bithorax complex: effects of insulator pairing on enhancer-promoter communication |
| Q54471240 | Studying physical chromatin interactions in plants using Chromosome Conformation Capture (3C). |
| Q81400139 | Suggestive evidence for chromosomal localization of non-coding RNA from imprinted LIT1 |
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