Mapping of long-range associations throughout the fission yeast genome reveals global genome organization linked to transcriptional regulation.
about
The second decade of 3C technologies: detailed insights into nuclear organizationAnalysis methods for studying the 3D architecture of the genomeContribution of Topological Domains and Loop Formation to 3D Chromatin OrganizationRedundancy of the genetic code enables translational pausingTranscriptional regulation at the yeast nuclear envelopeThe complex transcription regulatory landscape of our genome: control in three dimensionsHSA: integrating multi-track Hi-C data for genome-scale reconstruction of 3D chromatin structure.Transcription factor binding to a DNA zip code controls interchromosomal clustering at the nuclear periphery.The statistical-mechanics of chromosome conformation captureNeocentromeres Provide Chromosome Segregation Accuracy and Centromere Clustering to Multiple Loci along a Candida albicans ChromosomeUnderstanding spatial organizations of chromosomes via statistical analysis of Hi-C dataCENP-B cooperates with Set1 in bidirectional transcriptional silencing and genome organization of retrotransposonsStatistical confidence estimation for Hi-C data reveals regulatory chromatin contactsSingle-cell Hi-C reveals cell-to-cell variability in chromosome structureThe network architecture of the Saccharomyces cerevisiae genome.Systematic characterization of the conformation and dynamics of budding yeast chromosome XII.Chromatin associations in Arabidopsis interphase nucleiThe sequencing bias relaxed characteristics of Hi-C derived data and implications for chromatin 3D modelingFisHiCal: an R package for iterative FISH-based calibration of Hi-C data.Graph rigidity reveals well-constrained regions of chromosome conformation embeddings.A multi-task graph-clustering approach for chromosome conformation capture data sets identifies conserved modules of chromosomal interactions.Deconvolution of Ensemble Chromatin Interaction Data Reveals the Latent Mixing Structures in Cell SubpopulationsStatistical challenges in analyzing methylation and long-range chromosomal interaction dataSpatial distribution of centromeres and telomeres at interphase varies among Brachypodium species.Tracking the evolution of 3D gene organization demonstrates its connection to phenotypic divergenceThree-dimensional modeling of the P. falciparum genome during the erythrocytic cycle reveals a strong connection between genome architecture and gene expressionBridging the resolution gap in structural modeling of 3D genome organization.Three-dimensional modeling of chromatin structure from interaction frequency data using Markov chain Monte Carlo sampling.A genome-wide 3C-method for characterizing the three-dimensional architectures of genomes.Exploring the three-dimensional organization of genomes: interpreting chromatin interaction data.Normalization of a chromosomal contact map.A statistical approach for inferring the 3D structure of the genome.The adjacent positioning of co-regulated gene pairs is widely conserved across eukaryotesChromosome conformation maps in fission yeast reveal cell cycle dependent sub nuclear structure.The Dynamic Regulatory Genome of Capsaspora and the Origin of Animal Multicellularity.Genome-wide mapping and analysis of chromosome architecture.Bayesian inference of spatial organizations of chromosomes.The 3D organization of the yeast genome correlates with co-expression and reflects functional relations between genes.Distance-based assessment of the localization of functional annotations in 3D genome reconstructions.Analytical tools and current challenges in the modern era of neuroepigenomics
P2860
Q26747370-187D7187-B5FC-4B23-82E5-60309BE23E1EQ26795475-4B55D3EA-2BD3-44A5-9C37-416E3D42C582Q26801479-C16FE96B-3314-4AAE-A96A-092E40B925FBQ26823784-57C8E234-10A4-43EF-A85B-9997D64BB667Q26863161-754D3C96-5347-4503-9C2F-E81930BB0F4FQ27015113-41A4081F-6F67-407C-ACE3-866A3BF15C08Q27336344-D85741CF-E4B3-4FC4-A43C-E18582F08A26Q27935972-7A2DD4BD-3497-4B65-B5B3-5141AA9982ADQ28298852-BE47BDC8-0E6D-4FEC-90FD-CF7936EE8456Q28554334-2F7659B7-5406-4CC6-93DF-3D7D7A32F7B8Q28647858-F4740BE5-34AA-43B5-9098-472F4ABBBE25Q28727510-C8932D18-3B59-4502-9DFF-7B49318E0437Q29039702-6541D42D-2528-4518-A29A-1BD40EC61D53Q29397049-246FDF86-BC43-41BF-A0DE-7643F795F55BQ30415785-01B10C57-5496-4AA6-98F5-5E54D226BAEFQ30541698-AEF37472-A705-464A-BA70-321CA9D16E1EQ30597626-DA7837AA-0B87-4F60-936B-322016376DD4Q30662716-820281DB-4800-4F76-85B7-0E4A61803E6FQ30838627-BD10E19E-41FA-4D9E-897C-1909629FB639Q31098054-61958BCC-8AED-4E56-B89A-F6D0BDFCE29EQ31103133-28E07BA8-DEC3-4D79-8EE2-FBD10F5D273EQ31105950-57EFCC76-9AA5-4CCE-830A-5EC739066251Q31150882-496A0485-3B82-4D96-9BDF-EA6DA2DB1A2BQ33361187-CF1A21C7-4B96-4F22-8D25-E719DE00B5B3Q33636006-AB787BE8-6B1B-4AC4-97EB-FD9DAFDE7277Q33657762-17D12DF0-C01A-4A1E-8C29-E23C5B9082D8Q33967936-3D1C74AE-6F03-4029-BD8F-2FB32E567647Q34057341-96DF6F0F-C6F6-4CD6-AD19-956EFB1D204CQ34331241-F132C8E9-180A-4963-9E35-C5A1019A293FQ34343663-FC324292-F1D0-46F5-BBE0-A1986B6F7B1BQ34398212-69D73604-78F4-42EA-A9FB-EA1622ECE7D9Q34424959-D5DCAD67-7900-4221-B76C-7590A25D1700Q34439245-6F6FFF0A-E6F7-4A60-9E37-1B705C629145Q34489782-761A7A8A-773F-4AA9-B2DF-74B0318A65A0Q34523527-4B1A2C8D-1F4F-4AA8-B4B9-EE7660A2CA31Q34539078-86F25F3D-FA89-45CE-8799-52611A3435D8Q34574808-4DE92F47-BD6D-4246-9135-8AEABAC3F2CDQ34575600-F7703308-3839-448A-981F-24538DD64E28Q34623819-63D20F51-7D69-4BA9-9168-3F00C66E56F0Q34670822-6816FCCA-4FA9-46A5-9AF8-2A95260B52AA
P2860
Mapping of long-range associations throughout the fission yeast genome reveals global genome organization linked to transcriptional regulation.
description
2010 nî lūn-bûn
@nan
2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Mapping of long-range associat ...... to transcriptional regulation.
@ast
Mapping of long-range associat ...... to transcriptional regulation.
@en
Mapping of long-range associat ...... to transcriptional regulation.
@nl
type
label
Mapping of long-range associat ...... to transcriptional regulation.
@ast
Mapping of long-range associat ...... to transcriptional regulation.
@en
Mapping of long-range associat ...... to transcriptional regulation.
@nl
prefLabel
Mapping of long-range associat ...... to transcriptional regulation.
@ast
Mapping of long-range associat ...... to transcriptional regulation.
@en
Mapping of long-range associat ...... to transcriptional regulation.
@nl
P2093
P2860
P356
P1476
Mapping of long-range associat ...... to transcriptional regulation.
@en
P2093
Atsunari Tanaka
Hideki Tanizawa
Joseph R Capizzi
Ken-ichi Noma
Osamu Iwasaki
Priyankara Wickramasinghe
P2860
P304
P356
10.1093/NAR/GKQ955
P407
P577
2010-10-28T00:00:00Z