| scholarly article | Q13442814 |
| P50 | author | Andrey Gorchakov | Q37383150 |
| Hua-Bing Li | Q57320984 | ||
| Aki Minoda | Q58665339 | ||
| Gary H. Karpen | Q64871727 | ||
| Peter V Kharchenko | Q87103783 | ||
| P2093 | author name string | Sarah C R Elgin | |
| Nicole C Riddle | |||
| Peter J Park | |||
| Michael Y Tolstorukov | |||
| Daniela Linder-Basso | |||
| Artyom A Alekseyenko | |||
| Mitzi I Kuroda | |||
| Maria Kim | |||
| Mikhail Savitsky | |||
| Tingting Gu | |||
| Annette Plachetka | |||
| Vincenzo Pirrotta | |||
| Youngsook L Jung | |||
| Yuri B Schwartz | |||
| Gregory Shanower | |||
| P2860 | cites work | CTCF binding at the H19 imprinting control region mediates maternally inherited higher-order chromatin conformation to restrict enhancer access to Igf2 | Q24295238 |
| Analysis of the vertebrate insulator protein CTCF-binding sites in the human genome | Q24648552 | ||
| Global analysis of the insulator binding protein CTCF in chromatin barrier regions reveals demarcation of active and repressive domains | Q24655087 | ||
| Histone methylation by PRC2 is inhibited by active chromatin marks | Q27667743 | ||
| A novel sequence-specific DNA binding protein which interacts with three regularly spaced direct repeats of the CCCTC-motif in the 5'-flanking sequence of the chicken c-myc gene | Q28271955 | ||
| CTCF mediates long-range chromatin looping and local histone modification in the beta-globin locus | Q28590210 | ||
| An optimized transgenesis system for Drosophila using germ-line-specific phiC31 integrases | Q29615147 | ||
| CTCF genomic binding sites in Drosophila and the organisation of the bithorax complex | Q33290220 | ||
| Alternative epigenetic chromatin states of polycomb target genes | Q33523037 | ||
| A comprehensive map of insulator elements for the Drosophila genome | Q33525010 | ||
| Chromatin insulator elements block the silencing of a target gene by the Drosophila polycomb response element (PRE) but allow trans interactions between PREs on different chromosomes | Q33970629 | ||
| Active promoters and insulators are marked by the centrosomal protein 190. | Q34016223 | ||
| CTCF is conserved from Drosophila to humans and confers enhancer blocking of the Fab-8 insulator | Q34166628 | ||
| DNA position-specific repression of transcription by a Drosophila zinc finger protein | Q34237990 | ||
| Visualization of chromosomal domains with boundary element-associated factor BEAF-32. | Q34313007 | ||
| Insulators, not Polycomb response elements, are required for long-range interactions between Polycomb targets in Drosophila melanogaster | Q34528423 | ||
| The transcriptional diversity of 25 Drosophila cell lines | Q34548309 | ||
| The 87A7 chromomere. Identification of novel chromatin structures flanking the heat shock locus that may define the boundaries of higher order domains | Q34564785 | ||
| A chromatin insulator driving three-dimensional Polycomb response element (PRE) contacts and Polycomb association with the chromatin fiber | Q34573068 | ||
| Dynamic genome architecture in the nuclear space: regulation of gene expression in three dimensions | Q34603234 | ||
| Comprehensive analysis of the chromatin landscape in Drosophila melanogaster | Q35030499 | ||
| The role of the Suppressor of Hairy-wing insulator protein in Drosophila oogenesis. | Q35127104 | ||
| The Zw5 protein, a component of the scs chromatin domain boundary, is able to block enhancer-promoter interaction | Q35203899 | ||
| A cis-regulatory map of the Drosophila genome. | Q35229726 | ||
| Regulation of chromatin organization and inducible gene expression by a Drosophila insulator | Q35302779 | ||
| Genomic mapping of Suppressor of Hairy-wing binding sites in Drosophila | Q36643191 | ||
| Investigation of the properties of non-gypsy suppressor of hairy-wing-binding sites | Q36778045 | ||
| Coordinated control of dCTCF and gypsy chromatin insulators in Drosophila | Q36965375 | ||
| An endogenous suppressor of hairy-wing insulator separates regulatory domains in Drosophila. | Q37089392 | ||
| Three subclasses of a Drosophila insulator show distinct and cell type-specific genomic distributions | Q37240563 | ||
| The transcriptional interactome: gene expression in 3D. | Q37704745 | ||
| Modular structure of a chicken lysozyme silencer: involvement of an unusual thyroid hormone receptor binding site | Q38340913 | ||
| Genome-wide analysis of Polycomb targets in Drosophila melanogaster | Q40274308 | ||
| The Drosophila su(Hw) gene, which controls the phenotypic effect of the gypsy transposable element, encodes a putative DNA-binding protein | Q41254885 | ||
| Repression of hsp70 heat shock gene transcription by the suppressor of hairy-wing protein of Drosophila melanogaster | Q41689099 | ||
| The Drosophila insulator proteins CTCF and CP190 link enhancer blocking to body patterning | Q41944178 | ||
| CTCF mediates interchromosomal colocalization between Igf2/H19 and Wsb1/Nf1. | Q43651581 | ||
| The centrosomal protein CP190 is a component of the gypsy chromatin insulator | Q47072055 | ||
| A drosophila protein that imparts directionality on a chromatin insulator is an enhancer of position-effect variegation | Q47072182 | ||
| Polycomb complexes and the propagation of the methylation mark at the Drosophila ubx gene. | Q52010804 | ||
| Polycomb and trithorax group proteins mediate the function of a chromatin insulator. | Q52190099 | ||
| DNA bending is a determinant of binding specificity for a Drosophila zinc finger protein. | Q52449786 | ||
| Novel genes influencing the expression of the yellow locus and mdg4 (gypsy) in Drosophila melanogaster. | Q52453551 | ||
| An endogenous Su(Hw) insulator separates the yellow gene from the Achaete-scute gene complex in Drosophila. | Q52607886 | ||
| P433 | issue | 11 | |
| P921 | main subject | Drosophila | Q312154 |
| P304 | page(s) | 2188-2198 | |
| P577 | publication date | 2012-07-05 | |
| P1433 | published in | Genome Research | Q5533485 |
| P1476 | title | Nature and function of insulator protein binding sites in the Drosophila genome | |
| P478 | volume | 22 |
| Q58572322 | : Linking Metabolism and Epigenetics |
| Q35270768 | A functional insulator screen identifies NURF and dREAM components to be required for enhancer-blocking |
| Q38226685 | A mechanistic link between gene regulation and genome architecture in mammalian development |
| Q35191362 | A non-parametric peak calling algorithm for DamID-Seq |
| Q97587495 | Adaptation of gene loci to heterochromatin in the course of Drosophila evolution is associated with insulator proteins |
| Q37228819 | Architectural proteins Pita, Zw5,and ZIPIC contain homodimerization domain and support specific long-range interactions in Drosophila |
| Q34438433 | Architectural proteins: regulators of 3D genome organization in cell fate |
| Q52430543 | Assessing sufficiency and necessity of enhancer activities for gene expression and the mechanisms of transcription activation. |
| Q38663289 | C2H2 Zinc Finger Proteins: The Largest but Poorly Explored Family of Higher Eukaryotic Transcription Factors |
| Q36310709 | CBP binding outside of promoters and enhancers in Drosophila melanogaster. |
| Q37631835 | CCAT: Combinatorial Code Analysis Tool for transcriptional regulation |
| Q38856088 | CRISPR/Cas9 genome editing throws descriptive 3-D genome folding studies for a loop |
| Q38949804 | CTCF induces histone variant incorporation, erases the H3K27me3 histone mark and opens chromatin |
| Q93025387 | CTCF variants in 39 individuals with a variable neurodevelopmental disorder broaden the mutational and clinical spectrum |
| Q47761749 | CTCF-Mediated Enhancer-Promoter Interaction Is a Critical Regulator of Cell-to-Cell Variation of Gene Expression |
| Q26823453 | CTCF: an architectural protein bridging genome topology and function |
| Q38179201 | Cell lines |
| Q36051843 | Chromatin Heterogeneity and Distribution of Regulatory Elements in the Late-Replicating Intercalary Heterochromatin Domains of Drosophila melanogaster Chromosomes |
| Q27640577 | Chromatin Insulator Factors Involved in Long-Range DNA Interactions and Their Role in the Folding of the Drosophila Genome |
| Q64092217 | Chromatin architecture reorganization during neuronal cell differentiation in genome |
| Q40428840 | Chromatin binding of Gcn5 in Drosophila is largely mediated by CP190. |
| Q34344792 | Chromatin immunoprecipitation indirect peaks highlight long-range interactions of insulator proteins and Pol II pausing. |
| Q38161276 | Chromatin insulators and long-distance interactions in Drosophila |
| Q36895023 | Chromatin insulators: linking genome organization to cellular function |
| Q28249527 | Control of cell identity genes occurs in insulated neighborhoods in mammalian chromosomes |
| Q46040105 | Convergence of topological domain boundaries, insulators, and polytene interbands revealed by high-resolution mapping of chromatin contacts in the early Drosophila melanogaster embryo. |
| Q33636090 | Deciphering the DNA code for the function of the Drosophila polydactyl zinc finger protein Suppressor of Hairy-wing. |
| Q37621916 | Different Evolutionary Strategies To Conserve Chromatin Boundary Function in the Bithorax Complex |
| Q36677303 | Distinct Roles of Chromatin Insulator Proteins in Control of the Drosophila Bithorax Complex |
| Q35816381 | EAST Organizes Drosophila Insulator Proteins in the Interchromosomal Nuclear Compartment and Modulates CP190 Binding to Chromatin |
| Q39802589 | EAST affects the activity of Su(Hw) insulators by two different mechanisms in Drosophila melanogaster |
| Q39029565 | Ectopically tethered CP190 induces large-scale chromatin decondensation |
| Q37485666 | Enhancer Sharing Promotes Neighborhoods of Transcriptional Regulation Across Eukaryotes. |
| Q34407547 | Epigenetic dysregulation by nickel through repressive chromatin domain disruption |
| Q34245588 | Evolution of transcription factor binding in metazoans - mechanisms and functional implications |
| Q38228246 | Expanding the roles of chromatin insulators in nuclear architecture, chromatin organization and genome function |
| Q36109371 | Functional Requirements for Fab-7 Boundary Activity in the Bithorax Complex |
| Q38086775 | Functional implications of genome topology. |
| Q35739051 | Functional role of dimerization and CP190 interacting domains of CTCF protein in Drosophila melanogaster |
| Q36753493 | Functional sub-division of the Drosophila genome via chromatin looping: the emerging importance of CP190 |
| Q36392848 | Gene density, transcription, and insulators contribute to the partition of the Drosophila genome into physical domains |
| Q41587456 | Genome-Wide Analysis of Drosophila RBf2 Protein Highlights the Diversity of RB Family Targets and Possible Role in Regulation of Ribosome Biosynthesis |
| Q34806568 | Genome-wide identification of chromatin transitional regions reveals diverse mechanisms defining the boundary of facultative heterochromatin |
| Q36684862 | Genome-wide localization of exosome components to active promoters and chromatin insulators in Drosophila |
| Q91973493 | HIPP1 stabilizes the interaction between CP190 and Su(Hw) in the Drosophila insulator complex |
| Q33850558 | Heterochromatin-associated interactions of Drosophila HP1a with dADD1, HIPP1, and repetitive RNAs |
| Q48240056 | High-resolution TADs reveal DNA sequences underlying genome organization in flies. |
| Q38823292 | High-resolution in situ hybridization analysis on the chromosomal interval 61C7-61C8 of Drosophila melanogaster reveals interbands as open chromatin domains |
| Q38963694 | Highly conserved ENY2/Sus1 protein binds to Drosophila CTCF and is required for barrier activity |
| Q38309105 | Ibf1 and Ibf2 are novel CP190-interacting proteins required for insulator function. |
| Q35761581 | In vivo studies of the Drosophila insulator factor CTCF reach a Catch 22. |
| Q34485099 | Insulator function and topological domain border strength scale with architectural protein occupancy |
| Q98195575 | Insulator-based loops mediate the spreading of H3K27me3 over distant micro-domains repressing euchromatin genes |
| Q26775263 | Insulators and domains of gene expression |
| Q34343311 | Insulators recruit histone methyltransferase dMes4 to regulate chromatin of flanking genes. |
| Q27323609 | Insulators target active genes to transcription factories and polycomb-repressed genes to polycomb bodies |
| Q47758021 | Interactions between BTB domain of CP190 and two adjacent regions in Su(Hw) are required for the insulator complex formation. |
| Q35185318 | Making connections: insulators organize eukaryotic chromosomes into independent cis-regulatory networks |
| Q38193810 | Mechanisms and proteins involved in long-distance interactions |
| Q47160441 | Multiple interactions are involved in a highly specific association of the Mod(mdg4)-67.2 isoform with the Su(Hw) sites in Drosophila. |
| Q89723150 | N-terminal domain of the architectural protein CTCF has similar structural organization and ability to self-association in bilaterian organisms |
| Q47802482 | O-GlcNAcylation of boundary element associated factor (BEAF 32) in Drosophila melanogaster correlates with active histone marks at the promoters of its target genes |
| Q47129959 | Opbp is a new architectural/insulator protein required for ribosomal gene expression. |
| Q38980344 | Organization and function of the 3D genome |
| Q37275183 | Poly(ADP-ribosyl)ation regulates insulator function and intrachromosomal interactions in Drosophila |
| Q34598874 | Polycomb domain formation depends on short and long distance regulatory cues |
| Q90370364 | Promoter-Proximal Chromatin Domain Insulator Protein BEAF Mediates Local and Long-Range Communication with a Transcription Factor and Directly Activates a Housekeeping Promoter in Drosophila |
| Q90372246 | Proximity-dependent biotin labelling reveals CP190 as an EcR/Usp molecular partner |
| Q37655069 | Regulation of gene expression in the genomic context |
| Q38611817 | Regulatory Elements in Vectors for Efficient Generation of Cell Lines Producing Target Proteins |
| Q52374169 | Role of Su(Hw) zinc finger 10 and interaction with CP190 and Mod(mdg4) proteins in recruiting the Su(Hw) complex to chromatin sites in Drosophila. |
| Q34986658 | Specificity, propagation, and memory of pericentric heterochromatin |
| Q39788246 | Spectral identification of topological domains |
| Q88608330 | Spermiogenesis and Male Fertility Require the Function of Suppressor of Hairy-Wing in Somatic Cyst Cells of Drosophila |
| Q90950275 | Structural variants exhibit widespread allelic heterogeneity and shape variation in complex traits |
| Q49221551 | Sub-kb Hi-C in D. melanogaster reveals conserved characteristics of TADs between insect and mammalian cells |
| Q37633478 | Surviving an identity crisis: a revised view of chromatin insulators in the genomics era. |
| Q52613283 | Tethering of CHROMATOR and dCTCF proteins results in decompaction of condensed bands in the Drosophila melanogaster polytene chromosomes but does not affect their transcription and replication timing. |
| Q60197630 | The BEN Domain Protein Insensitive Binds to the Chromatin Boundary To Establish Proper Segmental Identity in |
| Q90239343 | The Dm-Myb Oncoprotein Contributes to Insulator Function and Stabilizes Repressive H3K27me3 PcG Domains |
| Q37213415 | The Drosophila enhancer of split gene complex: architecture and coordinate regulation by notch, cohesin, and polycomb group proteins |
| Q35034322 | The Drosophila eve insulator Homie promotes eve expression and protects the adjacent gene from repression by polycomb spreading |
| Q30361905 | The Drosophila speciation factor HMR localizes to genomic insulator sites. |
| Q90320686 | The Insulator Protein CTCF Is Required for Correct Hox Gene Expression, but Not for Embryonic Development in Drosophila |
| Q30410709 | The RNA-binding protein Rumpelstiltskin antagonizes gypsy chromatin insulator function in a tissue-specific manner |
| Q90381925 | The Role of Insulation in Patterning Gene Expression |
| Q36800576 | The cohesin-associated protein Wapal is required for proper Polycomb-mediated gene silencing |
| Q38175839 | The grammar of transcriptional regulation |
| Q37091654 | The insulator protein Suppressor of Hairy-wing is an essential transcriptional repressor in the Drosophila ovary |
| Q27010832 | The role of chromatin insulators in nuclear architecture and genome function |
| Q64105263 | The same domain of Su(Hw) is required for enhancer blocking and direct promoter repression |
| Q37576480 | Three-Dimensional Genome Organization and Function in Drosophila |
| Q34499471 | Tissue-specific regulation of chromatin insulator function |
| Q30276192 | Transcription factors GAF and HSF act at distinct regulatory steps to modulate stress-induced gene activation |
| Q43131993 | Two new insulator proteins, Pita and ZIPIC, target CP190 to chromatin |
| Q39984220 | Widespread colocalization of the Drosophila histone acetyltransferase homolog MYST5 with DREF and insulator proteins at active genes |
| Q34044346 | dREAM co-operates with insulator-binding proteins and regulates expression at divergently paired genes |
| Q34044477 | metaseq: a Python package for integrative genome-wide analysis reveals relationships between chromatin insulators and associated nuclear mRNA. |
| Q36777890 | tDNA insulators and the emerging role of TFIIIC in genome organization |
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