about
Chromatin organization in pluripotent cells: emerging approaches to study and disrupt functionCTCF: an architectural protein bridging genome topology and functionThe statistical-mechanics of chromosome conformation captureHigh-quality genome (re)assembly using chromosomal contact data.3CDB: a manually curated database of chromosome conformation capture data.Controlling the Master: Chromatin Dynamics at the MYC Promoter Integrate Developmental SignalingDynamic chromatin accessibility modeled by Markov process of randomly-moving molecules in the 3D genomeYY1 and CTCF orchestrate a 3D chromatin looping switch during early neural lineage commitmentAnalysis of hundreds of cis-regulatory landscapes at high resolution in a single, high-throughput experiment.Sequencing depth and coverage: key considerations in genomic analyses.Contact genomics: scaffolding and phasing (meta)genomes using chromosome 3D physical signatures.Insulator dysfunction and oncogene activation in IDH mutant gliomas.Role of non-coding sequence variants in cancer.Telomere position effect: regulation of gene expression with progressive telomere shortening over long distances.Genome-wide analysis uncovers high frequency, strong differential chromosomal interactions and their associated epigenetic patterns in E2-mediated gene regulation.Three-dimensional regulation of transcriptionCTCF as a multifunctional protein in genome regulation and gene expression.Quantitative analysis of chromatin interaction changes upon a 4.3 Mb deletion at mouse 4E2Chromosome domain architecture and dynamic organization of the fission yeast genome.Nanoscale spatial organization of the HoxD gene cluster in distinct transcriptional states.Reorganisation of Hoxd regulatory landscapes during the evolution of a snake-like body plan.The 3D genome in transcriptional regulation and pluripotencyUnraveling the 3D genome: genomics tools for multiscale exploration.Structure, function and evolution of topologically associating domains (TADs) at HOX loci.Gene regulation during development in the light of topologically associating domains.Visualizing the HoxD Gene Cluster at the Nanoscale Level.Chromatin loops and causality loops: the influence of RNA upon spatial nuclear architecture.Genome maintenance in the context of 4D chromatin condensation.Enhancer deregulation in cancer and other diseases.CRISPR/Cas9 genome editing throws descriptive 3-D genome folding studies for a loop.Allele-specific transcriptional regulation of IRF4 in melanocytes is mediated by chromatin looping of the intronic rs12203592 enhancer to the IRF4 promoter.The Molecular Revolution in Cutaneous Biology: Chromosomal Territories, Higher-Order Chromatin Remodeling, and the Control of Gene Expression in Keratinocytes.Review: Enhancers in Autoimmune Arthritis: Implications and Therapeutic Potential.Chromatin features, RNA polymerase II and the comparative expression of lens genes encoding crystallins, transcription factors, and autophagy mediatorsThe 3D folding of metazoan genomes correlates with the association of similar repetitive elements.Characteristic arrangement of nucleosomes is predictive of chromatin interactions at kilobase resolution.Microfluidics-Based Chromosome Conformation Capture (3C) Technology for Examining Chromatin Organization with a Low Quantity of Cells.Chromosome Conformation Capture in Primary Human Cells.In Vivo and In Situ Replication Labeling Methods for Super-resolution Structured Illumination Microscopy of Chromosome Territories and Chromatin Domains.SMC condensin: promoting cohesion of replicon arms
P2860
Q26800018-DC7A3AF0-8DCC-4EFA-B76B-B32A702116DDQ26823453-DC691DA9-01E3-4CE9-BE98-E564FFAF5300Q28298852-821A40B0-7F48-4BE4-B46D-549F710961B5Q30612938-C4F48250-073D-4384-BF6A-55A66ED5A95FQ31077735-B7AF2F18-C760-4FEE-B1E7-37092365CA14Q33608508-B8A15FD7-87EE-4B42-8714-69DBF952C8BBQ33740855-A06B1973-2AFB-4A07-86FA-BDCDF349069EQ33865154-FAA4E2DE-CE45-4C81-A05D-9BB4942C0C49Q34397248-27B30E8B-681A-435D-AB9D-2222E9C3E271Q34398440-9CB6A39F-9DD4-4B05-96ED-AD16D4AFACB6Q34474748-AACD2A4B-DF3E-420D-970C-B507EC880FCAQ34506441-5A19D56B-0B7D-4DB9-A570-657F43B253A1Q34509633-439C772D-E628-4A5A-9C33-E495C676744CQ34518938-65C43C09-58DD-4AD7-B105-26B819717CC6Q34569750-26D29442-DE89-4EB9-BF9C-0F5247A8407DQ35252272-212B4C98-F125-4748-929D-9CA6F377DAC6Q35818578-E29D5B85-8B8D-4299-9A35-C3FEC7F3EF3AQ35847532-46160B29-1F1A-44F8-B46A-ADBB968FA28CQ36137510-9489010B-0E7A-4DAB-8D80-CC2B51715367Q36300252-163194E9-554D-456F-B30F-040A7270022EQ37143360-9DE42BA4-0F76-46C1-BF54-9972C2EB2082Q38218180-DF56E569-C580-4246-BA28-E1A8EB064243Q38427027-D6BE52B7-E226-4164-B1B4-27143AA230ABQ38443152-FC57355D-BAB7-4C64-BE94-78BF0DB0BBC3Q38630582-F5E5C78C-0668-4FE8-BE64-AA799E4DDCE0Q38696767-8260142D-1056-47A3-B229-CFBF8F5662DEQ38737169-5CB53B8F-7855-4F81-B468-6CB96B558CF5Q38813244-6FBED6CF-C392-4501-B437-5D0F5892595DQ38826989-0523036C-E9D6-4C4B-9A4F-AFAC4F099786Q38856088-949271BE-37A1-4F45-BBA9-9373C52E9021Q38915433-20EF3859-53CD-416B-BFC6-0F4DE77FC50BQ39244160-68A3E56A-FEF8-4FA8-A596-5D30CC1A1E04Q39407376-AF80825A-B621-4E39-B8A5-ECA265AE466EQ40583594-4C1E541E-3185-4EF2-A1B4-892D72993CADQ43099768-ACF978AD-9110-40A5-8F63-BB4EA0C77F6DQ47169601-CEFF7376-83FA-4E96-B64E-DA52697F1A81Q51418477-E1C7ED84-28D8-4454-B5D4-DA96280DC80EQ51471977-6817CB53-1A00-42F7-A8A2-E928E8E1B5B3Q51710857-92911BB8-2B1C-4162-9E89-C7A0330AA6D1Q57643467-AB1F9A97-FB3A-477B-9D57-24B0801C89AF
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
3C-based technologies to study the shape of the genome
@en
3C-based technologies to study the shape of the genome
@nl
type
label
3C-based technologies to study the shape of the genome
@en
3C-based technologies to study the shape of the genome
@nl
prefLabel
3C-based technologies to study the shape of the genome
@en
3C-based technologies to study the shape of the genome
@nl
P2860
P1433
P1476
3C-based technologies to study the shape of the genome
@en
P2093
Job Dekker
P2860
P304
P356
10.1016/J.YMETH.2012.11.005
P577
2012-11-01T00:00:00Z