Long-range compaction and flexibility of interphase chromatin in budding yeast analyzed by high-resolution imaging techniques.
about
A simple biophysical model emulates budding yeast chromosome condensationDiffusion-driven looping provides a consistent framework for chromatin organizationHigher order chromatin organization in cancerHigh resolution imaging reveals heterogeneity in chromatin states between cells that is not inherited through cell division.Entropy gives rise to topologically associating domains.Long-range communication between the silencers of HMR.Clustering of yeast tRNA genes is mediated by specific association of condensin with tRNA gene transcription complexes.Quiescent Saccharomyces cerevisiae forms telomere hyperclusters at the nuclear membrane vicinity through a multifaceted mechanism involving Esc1, the Sir complex, and chromatin condensation.The network architecture of the Saccharomyces cerevisiae genome.Yeast kinetochore microtubule dynamics analyzed by high-resolution three-dimensional microscopy.Lte1, Cdc14 and MEN-controlled Cdk inactivation in yeast coordinate rDNA decompaction with late telophase progression.Budding yeast chromatin is dispersed in a crowded nucleoplasm in vivo.Restraint-based three-dimensional modeling of genomes and genomic domains.Graph rigidity reveals well-constrained regions of chromosome conformation embeddings.Structure and dynamics of interphase chromosomes.Centromeric localization of dispersed Pol III genes in fission yeast.Chromatin as dynamic 10-nm fibers.Three-dimensional modeling of the P. falciparum genome during the erythrocytic cycle reveals a strong connection between genome architecture and gene expressionChromosome arm length and nuclear constraints determine the dynamic relationship of yeast subtelomeres.Early initiation of a replication origin tethered at the nuclear peripheryChromatin fiber dynamics under tension and torsionLooping probabilities in model interphase chromosomes.Evolution of histone 2A for chromatin compaction in eukaryotes.Hierarchies in eukaryotic genome organization: Insights from polymer theory and simulations.Spatial confinement is a major determinant of the folding landscape of human chromosomes.The budding yeast nucleus.Three-dimensional modeling of chromatin structure from interaction frequency data using Markov chain Monte Carlo sampling.Contributions of histone H3 nucleosome core surface mutations to chromatin structures, silencing and DNA repair.Intranuclear trafficking of episomal DNA is transcription-dependent.Effects of supercoiling on enhancer-promoter contacts.Modeling meiotic chromosomes indicates a size dependent contribution of telomere clustering and chromosome rigidity to homologue juxtaposition.Features of endogenous cardiomyocyte chromatin revealed by super-resolution STED microscopyProteolysis of mitotic chromosomes induces gradual and anisotropic decondensation correlated with a reduction of elastic modulus and structural sensitivity to rarely cutting restriction enzymesThe role of transcription factories-mediated interchromosomal contacts in the organization of nuclear architecture.Mapping of long-range associations throughout the fission yeast genome reveals global genome organization linked to transcriptional regulation.The nucleolus: a raft adrift in the nuclear sea or the keystone in nuclear structure?Correlations of three-dimensional motion of chromosomal loci in yeast revealed by the double-helix point spread function microscope.Bayesian inference of spatial organizations of chromosomes.Principles of chromosomal organization: lessons from yeast.Colocalization of coregulated genes: a steered molecular dynamics study of human chromosome 19.
P2860
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P2860
Long-range compaction and flexibility of interphase chromatin in budding yeast analyzed by high-resolution imaging techniques.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Long-range compaction and flex ...... resolution imaging techniques.
@en
Long-range compaction and flex ...... resolution imaging techniques.
@nl
type
label
Long-range compaction and flex ...... resolution imaging techniques.
@en
Long-range compaction and flex ...... resolution imaging techniques.
@nl
prefLabel
Long-range compaction and flex ...... resolution imaging techniques.
@en
Long-range compaction and flex ...... resolution imaging techniques.
@nl
P2860
P50
P356
P1476
Long-range compaction and flex ...... -resolution imaging techniques
@en
P2093
Lutz Gehlen
P2860
P304
16495-16500
P356
10.1073/PNAS.0402766101
P407
P577
2004-11-15T00:00:00Z