Gene density and transcription influence the localization of chromatin outside of chromosome territories detectable by FISH. - Wikidata - wikimedia - TriplyDB

Gene density and transcription influence the localization of chromatin outside of chromosome territories detectable by FISH.

Gene density and transcription influence the localization of chromatin outside of chromosome territories detectable by FISH.

http://www.wikidata.org/entity/Q36324296

about

Identification of target genes of transcription factor activator protein 2 gamma in breast cancer cells Identification of novel binding elements and gene targets for the homeodomain protein BARX2 Chromatin decondensation and nuclear reorganization of the HoxB locus upon induction of transcription Visualizing telomere dynamics in living mammalian cells using PNA probes Histone modifications and nuclear architecture: a review A novel role for Xist RNA in the formation of a repressive nuclear compartment into which genes are recruited when silenced Transcription-dependent spatial arrangements of CFTR and adjacent genes in human cell nuclei Molecular dissection of formation of senescence-associated heterochromatin foci Distinct genomic integration of MLV and SIV vectors in primate hematopoietic stem and progenitor cells The architecture of chicken chromosome territories changes during differentiation Pairing and anti-pairing: a balancing act in the diploid genome An Overview of Genome Organization and How We Got There: from FISH to Hi-C Innate structure of DNA foci restricts the mixing of DNA from different chromosome territories Analysis of β-globin chromatin micro-environment using a novel 3C variant, 4Cv Aberrant lamination in the cerebral cortex of mouse embryos lacking DNA topoisomerase IIbeta The X chromosome is organized into a gene-rich outer rim and an internal core containing silenced nongenic sequences Nuclear compartmentalization of odorant receptor genes.Targeting and tracing of specific DNA sequences with dTALEs in living cells.Three-dimensional super-resolution microscopy of the inactive X chromosome territory reveals a collapse of its active nuclear compartment harboring distinct Xist RNA foci.Identifying multi-locus chromatin contacts in human cells using tethered multiple 3C Maintenance of long-range DNA interactions after inhibition of ongoing RNA polymerase II transcription.Targeted deficiency of the transcriptional activator Hnf1alpha alters subnuclear positioning of its genomic targets Interphase chromosome arrangement in Arabidopsis thaliana is similar in differentiated and meristematic tissues and shows a transient mirror symmetry after nuclear division.Structure and epigenetics of nucleoli in comparison with non-nucleolar compartments Gene expression in the third dimension: the ECM-nucleus connection.The role of nuclear bodies in gene expression and disease.Dynamic plasticity of large-scale chromatin structure revealed by self-assembly of engineered chromosome regions.Intranuclear trafficking of episomal DNA is transcription-dependent.4D chromatin dynamics in cycling cells: Theodor Boveri's hypotheses revisited.Maintenance of a functional higher order chromatin structure: The role of the nuclear matrix in normal and disease states.Expression-dependent folding of interphase chromatin Active genes dynamically colocalize to shared sites of ongoing transcription.Ranked retrieval of segmented nuclei for objective assessment of cancer gene repositioning.Modulation of Higher Order Chromatin Conformation in Mammalian Cell Nuclei Can Be Mediated by Polyamines and Divalent Cations.Association between active genes occurs at nuclear speckles and is modulated by chromatin environment.Differential nuclear scaffold/matrix attachment marks expressed genes.The inactive X chromosome adopts a unique three-dimensional conformation that is dependent on Xist RNA.Dynamic BRG1 recruitment during T helper differentiation and activation reveals distal regulatory elements.Spatial genome organization in the formation of chromosomal translocations The three-dimensional structure of human interphase chromosomes is related to the transcriptome map.

P2860

Q21260382-A1A6F0F2-7EC4-4AD8-BD6A-3A537BB6E90A Q24306418-D1728778-4FAE-4CEE-9AC4-4BC6F52C8532 Q24563638-8C8858A8-2207-4AE1-8759-246DFA3AEB10 Q24634392-1E6A5283-D5BC-41AB-80E0-74D40372FFF7 Q24647743-DA5C0B4D-1965-4B54-A79E-8227C8708933 Q24672840-FED680A0-80D4-41CF-85D5-E93904234587 Q24677170-B9E8ED5C-42D9-4A69-8964-674C09AE542D Q24681416-D7068D59-6834-4BCD-8BDE-DEAC47F2C4FD Q24796392-5C4AC7BC-1044-4C04-A323-4D0811E23C3B Q24802121-2E10F92A-8471-4EA1-9BDE-EE6ECDD5D720 Q26750274-FF126420-6147-4768-97CC-8DF48A69C0CC Q26801741-98320451-8C15-46EC-89DE-D8B4FCF9D614 Q27312643-3BF5148A-AC54-4899-B5C1-34EB7120E0F4 Q28475639-3DDF90B2-076E-40DA-90B0-DDD59DA12BC4 Q28509730-1CC7A4C0-EF97-4BED-8E88-9AEFCBFCCA8A Q30477370-A31075E4-6AC3-46FD-A1FC-807D25E5FF85 Q30572560-7D6BFB53-C7BF-4E54-9ACE-32CF5A59050D Q30575324-94073C60-6B5F-4544-8E27-087ABAE56C54 Q30584755-7720209D-88C3-4A84-936D-F30E142DDC71 Q30630876-D93EE9EC-46D3-4EFF-8064-6C7B79ACAFFB Q33320550-D1105DF3-54C9-45C3-84A3-3E4C0A23C465 Q33337139-39B7F521-2610-402E-BCE3-1EA48293AEB6 Q33343913-2823E400-0590-40F4-BC48-C35CEAB66A7C Q33803135-BF1E8CCE-2B80-41EE-8C2F-81E38E5575CF Q34029103-A05AE9B8-0FA2-44D0-B5DE-F78940E69AE0 Q34038183-DC7FAFF2-5436-4BBD-A04B-38A6098E8043 Q34111011-B1A7DBCA-4B7F-4D8E-9577-1A0EEC64DEB2 Q34115905-1351ED0A-60EB-421F-AD79-7D53439E25AD Q34165063-B35D0944-9C01-4841-8648-14226B239EE8 Q34189725-675A88D9-7255-4A94-81EC-1EAA521C5166 Q34287511-FFB62068-326D-43D6-BCFC-4012BF24AB92 Q34347615-E6E2E0D6-97E0-430D-913C-E4D01D87C213 Q34413171-2D58359A-70FF-4279-A8A8-5B3A86E1588B Q34807927-65BD0D1C-F543-4773-9CE3-075BDB883612 Q34834133-E0A6C198-4423-489C-A09C-A80043784ABC Q34883279-9D8307DE-2CD2-4054-BBDC-4CF37951EF3A Q35098579-0411C584-7113-44D7-ACA4-F26175CC7655 Q35102079-87959C86-BD53-4E46-9C24-4514A309E09D Q35650635-4B91E6AE-3B1D-4F25-8C6E-B06E8AF90761 Q35857089-1F7128E0-23CB-4167-89B4-12DE2DC578F5

P2860

Gene density and transcription influence the localization of chromatin outside of chromosome territories detectable by FISH.

http://www.wikidata.org/entity/Q36324296

description

2002 nî lūn-bûn

@nan

2002年の論文

@ja

2002年学术文章

@wuu

2002年学术文章

@zh-cn

2002年学术文章

@zh-hans

2002年学术文章

@zh-my

2002年学术文章

@zh-sg

2002年學術文章

@yue

2002年學術文章

@zh

2002年學術文章

@zh-hant

name

Gene density and transcription ...... erritories detectable by FISH.

@ast

Gene density and transcription ...... erritories detectable by FISH.

@en

type

label

Gene density and transcription ...... erritories detectable by FISH.

@ast

Gene density and transcription ...... erritories detectable by FISH.

@en

prefLabel

Gene density and transcription ...... erritories detectable by FISH.

@ast

Gene density and transcription ...... erritories detectable by FISH.

@en

P1433

Q36324296-C89A1845-2062-4E67-A53C-77083BF08D4A

P1476

Q36324296-7FC41BBE-FD17-4EF0-94B6-4B7806B44AF5

P2093

Q36324296-73E06B35-95DB-4D6F-8FF1-D5DB73926024

Q36324296-E3287132-DB60-42E0-A933-6174532ECDB8

Q36324296-FBDD7624-5BE7-4D44-B92A-332EC13F93EB

P2860

Q36324296-1133B2CC-D772-4CB9-8EA9-DD9442580A70

Q36324296-12DA130D-DB1A-44F8-87D1-07E7D8BA1942

Q36324296-14229099-10B0-46E4-8976-9E26C62C9BEC

Q36324296-15A554BF-091A-4D70-9631-553E53690219

Q36324296-276ACEF2-1EC3-448D-A983-F5581ABFA105

Q36324296-2F2F04E8-5E27-4870-8490-8828E1F90D58

Q36324296-314041A7-0BAF-483A-9D0C-B14A8F1996BA

Q36324296-38FA2299-122C-4945-9C0A-BE05C639FFFC

Q36324296-46461CF2-FFC0-4555-87E9-BF79D621D02B

Q36324296-47662395-DB30-4B9B-AC61-17F2382A1E56

P304

Q36324296-9B0431BA-C107-43D5-9C96-2C456E111822

P31

Q36324296-E9CCCEA4-34FB-408D-8B97-992A64F3D3A1

P356

Q36324296-B04973C0-F365-443C-87E6-817B81D52418

P407

Q36324296-5E3359E5-350D-4D5D-8201-88E5A6C08D1F

P433

Q36324296-D2A5890B-A7BA-460E-93EA-6996108CA06F

P478

Q36324296-C3043296-A3E6-45CC-9B16-5CE5BD1D7D10

P577

Q36324296-80AB9182-C5CB-49ED-876C-5C2E10469A7D

P5875

Q36324296-8B1FD067-FB13-4DAE-9576-1BF99CF4D707

P698

Q36324296-742D9D4F-1D9E-441F-9610-10FD88659CFF

P932

Q36324296-5AC6C765-79E2-45F3-ADEB-F535DB8FB2B9

P356

P1433

Journal of Cell Biology

P1476

Gene density and transcription ...... erritories detectable by FISH.

@en

P2093

Nicola L Mahy

http://www.w3.org/2001/XMLSchema#string

Paul E Perry

http://www.w3.org/2001/XMLSchema#string

Wendy A Bickmore

http://www.w3.org/2001/XMLSchema#string

P2860

Organization and evolution of olfactory receptor genes on human chromosome 11

Active and inactive genes localize preferentially in the periphery of chromosome territories

Chromosome territories, nuclear architecture and gene regulation in mammalian cells

Two novel genes in the center of the 11p15 imprinted domain escape genomic imprinting

The DNA sequence of human chromosome 22

Sequence conservation and variability of imprinting in the Beckwith-Wiedemann syndrome gene cluster in human and mouse

Sequence, structure and pathology of the fully annotated terminal 2 Mb of the short arm of human chromosome 16

A 2.5-Mb transcript map of a tumor-suppressing subchromosomal transferable fragment from 11p15.5, and isolation and sequence analysis of three novel genes

A 1.4-Mb high-resolution physical map and contig of chromosome segment 11p15.5 and genes in the LOH11A metastasis suppressor region

The relationship between chromosome structure and function at a human telomeric region

P304

753-763

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1083/JCB.200207115

http://www.w3.org/2001/XMLSchema#string

P407

P433

5

http://www.w3.org/2001/XMLSchema#string

P478

159

http://www.w3.org/2001/XMLSchema#string

P577

2002-12-09T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

10997719

http://www.w3.org/2001/XMLSchema#string

P698

12473685

http://www.w3.org/2001/XMLSchema#string

P932

2173389

http://www.w3.org/2001/XMLSchema#string