scholarly article | Q13442814 |
P2093 | author name string | Joel A Huberman | |
Dharani D Dubey | |||
Soo-Mi Kim | |||
P2860 | cites work | Composite motifs and repeat symmetry in S. pombe centromeres: direct analysis by integration of NotI restriction sites | Q69348653 |
Evidence for a megareplicon covering megabases of centromeric chromosome segments | Q71502262 | ||
Mutations in the fission yeast silencing factors clr4+ and rik1+ disrupt the localisation of the chromo domain protein Swi6p and impair centromere function | Q71821145 | ||
Early initiation of bovine satellite I DNA replication | Q72939930 | ||
Requirement of Mis6 centromere connector for localizing a CENP-A-like protein in fission yeast | Q73919521 | ||
Normal human telomeres are not late replicating | Q78202496 | ||
Position effect at S. cerevisiae telomeres: reversible repression of Pol II transcription | Q28131683 | ||
Regulation of heterochromatic silencing and histone H3 lysine-9 methylation by RNAi | Q28218870 | ||
Regulation of replication timing in fission yeast | Q28363094 | ||
Developmental regulation of DNA replication timing at the human beta globin locus. | Q28363097 | ||
The localization of replication origins on ARS plasmids in S. cerevisiae | Q29618310 | ||
Transitions in distinct histone H3 methylation patterns at the heterochromatin domain boundaries | Q29622865 | ||
Centromeres and variant histones: what, where, when and why? | Q30309525 | ||
Distinct protein interaction domains and protein spreading in a complex centromere. | Q33898243 | ||
Rearrangements of the transposable mating-type cassettes of fission yeast | Q33939392 | ||
The domain structure of centromeres is conserved from fission yeast to humans | Q33946736 | ||
The chromodomain protein Swi6: a key component at fission yeast centromeres. | Q34303978 | ||
Mutations derepressing silent centromeric domains in fission yeast disrupt chromosome segregation. | Q34318276 | ||
Telomere-associated chromosome breakage in fission yeast results in variegated expression of adjacent genes | Q34332700 | ||
Position effect variegation at fission yeast centromeres. | Q34348065 | ||
Histone H3 variants specify modes of chromatin assembly | Q34444033 | ||
Transcriptional silencing at Saccharomyces telomeres: implications for other organisms | Q34535610 | ||
Heterochromatin: new possibilities for the inheritance of structure | Q34563268 | ||
The 2.1-kb inverted repeat DNA sequences flank the mat2,3 silent region in two species of Schizosaccharomyces and are involved in epigenetic silencing in Schizosaccharomyces pombe | Q34616198 | ||
Replication timing and transcriptional control: beyond cause and effect | Q34688494 | ||
Centromere identity in Drosophila is not determined in vivo by replication timing | Q36377636 | ||
Replication of Centromere II of Schizosaccharomyces pombe | Q36554830 | ||
Absence of correlation between late-replication and spreading of X inactivation in an X;autosome translocation | Q38491467 | ||
A low copy number central sequence with strict symmetry and unusual chromatin structure in fission yeast centromere | Q40241250 | ||
Centromeres are specialized replication domains in heterochromatin | Q40815256 | ||
Expression-state boundaries in the mating-type region of fission yeast. | Q41948193 | ||
Cell cycle-dependent specific positioning and clustering of centromeres and telomeres in fission yeast | Q42158430 | ||
Telomere position effect in human cells | Q43642023 | ||
Establishment and maintenance of a heterochromatin domain | Q44128134 | ||
Genome-wide DNA replication profile for Drosophila melanogaster: a link between transcription and replication timing | Q44159316 | ||
Late DNA synthesis in heterochromatin | Q47875224 | ||
Control of replication timing by a transcriptional silencer | Q47885825 | ||
P433 | issue | 3 | |
P304 | page(s) | 330-335 | |
P577 | publication date | 2003-02-01 | |
P1433 | published in | Genes & Development | Q1524533 |
P1476 | title | Early-replicating heterochromatin | |
P478 | volume | 17 |
Q33336581 | A DNA polymerase alpha accessory protein, Mcl1, is required for propagation of centromere structures in fission yeast |
Q53077173 | A replication-time-controlling sequence element in Schizosaccharomyces pombe. |
Q35642876 | Analysis of model replication origins in Drosophila reveals new aspects of the chromatin landscape and its relationship to origin activity and the prereplicative complex |
Q33604860 | Arabidopsis thaliana chromosome 4 replicates in two phases that correlate with chromatin state. |
Q38853415 | Are all repeats created equal? Understanding DNA repeats at an individual level. |
Q24809588 | Assembly and characterization of heterochromatin and euchromatin on human artificial chromosomes |
Q37512019 | Asynchronous replication timing of telomeres at opposite arms of mammalian chromosomes |
Q41937752 | Cell cycle regulated transcription of heterochromatin in mammals vs. fission yeast: functional conservation or coincidence? |
Q36392012 | Cell-cycle regulation of cohesin stability along fission yeast chromosomes |
Q92295550 | Cellular Dynamics and Genomic Identity of Centromeres in Cereal Blast Fungus |
Q39010240 | Centromere Stability: The Replication Connection |
Q41012318 | Centromeres of the Yeast Komagataella phaffii (Pichia pastoris) Have a Simple Inverted-Repeat Structure |
Q24537593 | Centromeric chromatin exhibits a histone modification pattern that is distinct from both euchromatin and heterochromatin |
Q33312107 | Checkpoint effects and telomere amplification during DNA re-replication in fission yeast |
Q33311412 | Checkpoint independence of most DNA replication origins in fission yeast |
Q37033647 | Checkpoint-dependent regulation of origin firing and replication fork movement in response to DNA damage in fission yeast |
Q38356943 | Condensin Promotes Position Effects within Tandem DNA Repeats via the RITS Complex. |
Q41711507 | Coordination of replication and transcription along a Drosophila chromosome. |
Q27330134 | Cytoskeletal tension induces the polarized architecture of the nucleus |
Q64087221 | DNA Replication Timing Enters the Single-Cell Era |
Q38496732 | DNA replication origin activation in space and time |
Q34654036 | DNA replication timing |
Q36160604 | DNA sequence templates adjacent nucleosome and ORC sites at gene amplification origins in Drosophila |
Q54967259 | Distinct 'safe zones' at the nuclear envelope ensure robust replication of heterochromatic chromosome regions. |
Q26851994 | Diversity in requirement of genetic and epigenetic factors for centromere function in fungi |
Q33684292 | Domain-wide regulation of DNA replication timing during mammalian development |
Q47820545 | Dynamic alterations of replication timing in mammalian cells |
Q34950028 | Epigenetic inheritance during the cell cycle |
Q36981211 | Epigenetic regulation of centromeric chromatin: old dogs, new tricks? |
Q33680694 | Epigenetically-inherited centromere and neocentromere DNA replicates earliest in S-phase |
Q42158675 | Establishment of expression-state boundaries by Rif1 and Taz1 in fission yeast |
Q36659540 | Eukaryotic DNA replication in a chromatin context |
Q58429001 | Five pillars of centromeric chromatin in fungal pathogens |
Q34270486 | Functional centromeres determine the activation time of pericentric origins of DNA replication in Saccharomyces cerevisiae |
Q36245258 | Genome-wide identification and characterization of replication origins by deep sequencing |
Q41893574 | Genome-wide localization of pre-RC sites and identification of replication origins in fission yeast |
Q44874982 | Genomic Analysis of the DNA Replication Timing Program during Mitotic S Phase in Maize (Zea mays) Root Tips |
Q40784286 | Heterochromatin protein 1 (HP1) modulates replication timing of the Drosophila genome |
Q35917373 | Highly condensed chromatins are formed adjacent to subtelomeric and decondensed silent chromatin in fission yeast |
Q33851567 | Identification of a novel type of spacer element required for imprinting in fission yeast |
Q92756188 | Insights into the Link between the Organization of DNA Replication and the Mutational Landscape |
Q27940145 | Kinetochores coordinate pericentromeric cohesion and early DNA replication by Cdc7-Dbf4 kinase recruitment |
Q36164763 | Many players, one goal: how chromatin states are inherited during cell division |
Q28067241 | Mechanisms Governing DDK Regulation of the Initiation of DNA Replication |
Q33552321 | Molecular and cellular dissection of mating-type switching steps in Schizosaccharomyces pombe |
Q36322196 | Mouse centric and pericentric satellite repeats form distinct functional heterochromatin |
Q21559664 | Mutations disrupting histone methylation have different effects on replication timing in S. pombe centromere |
Q38318582 | Myb-domain protein Teb1 controls histone levels and centromere assembly in fission yeast |
Q34392191 | Neocentromeres: a place for everything and everything in its place |
Q93103545 | Next-Generation Sequencing Enables Spatiotemporal Resolution of Human Centromere Replication Timing |
Q21203755 | Origin of the cell nucleus, mitosis and sex: roles of intracellular coevolution |
Q89996449 | Overlapping Roles in Chromosome Segregation for Heterochromatin Protein 1 (Swi6) and DDK in Schizosaccharomyces pombe |
Q34597969 | PcG-mediated higher-order chromatin structures modulate replication programs at the Drosophila BX-C. |
Q33293168 | Plasticity of fission yeast CENP-A chromatin driven by relative levels of histone H3 and H4. |
Q36119637 | Proliferation-dependent and cell cycle regulated transcription of mouse pericentric heterochromatin |
Q42260386 | Quantitative single-molecule microscopy reveals that CENP-A(Cnp1) deposition occurs during G2 in fission yeast. |
Q34028020 | RITS-connecting transcription, RNA interference, and heterochromatin assembly in fission yeast |
Q35156797 | Rad51-Rad52 mediated maintenance of centromeric chromatin in Candida albicans |
Q40311595 | Reconciling stochastic origin firing with defined replication timing |
Q44542200 | Regulation of DNA replication timing |
Q47404896 | Regulation of transcriptional silencing and chromodomain protein localization at centromeric heterochromatin by histone H3 tyrosine 41 phosphorylation in fission yeast |
Q39168142 | Regulation of DNA Replication through Natural Impediments in the Eukaryotic Genome. |
Q36740484 | Replicating centromeric chromatin: spatial and temporal control of CENP-A assembly. |
Q30479065 | Replication foci dynamics: replication patterns are modulated by S-phase checkpoint kinases in fission yeast. |
Q30539756 | Replication fork stability is essential for the maintenance of centromere integrity in the absence of heterochromatin |
Q42809023 | Replication of centromeric heterochromatin in mouse fibroblasts takes place in early, middle, and late S phase. |
Q35148827 | Replication of the Chicken β-Globin Locus: Early-Firing Origins at the 5′ HS4 Insulator and the ρ- and βA-Globin Genes Show Opposite Epigenetic Modifications |
Q37432729 | Replication timing and transcriptional control: beyond cause and effect--part II. |
Q37208139 | Replication timing as an epigenetic mark |
Q34249766 | Rif1 is a global regulator of timing of replication origin firing in fission yeast |
Q37961784 | Roles of RNAi in chromatin regulation and epigenetic inheritance |
Q42256342 | S. pombe replication protein Cdc18 (Cdc6) interacts with Swi6 (HP1) heterochromatin protein: region specific effects and replication timing in the centromere. |
Q38987148 | Spatial organization of the Schizosaccharomyces pombe genome within the nucleus |
Q35097684 | Stretching it: putting the CEN(P-A) in centromere |
Q34097202 | Suppressors of Bir1p (Survivin) identify roles for the chromosomal passenger protein Pic1p (INCENP) and the replication initiation factor Psf2p in chromosome segregation |
Q36240918 | Telomere-binding protein Taz1 controls global replication timing through its localization near late replication origins in fission yeast |
Q43130012 | Telomere-binding proteins play roles in control of replication timing |
Q35171897 | The CENP-B homolog, Abp1, interacts with the initiation protein Cdc23 (MCM10) and is required for efficient DNA replication in fission yeast |
Q24805993 | The CHD remodeling factor Hrp1 stimulates CENP-A loading to centromeres |
Q37503847 | The CINs of the centromere |
Q36958166 | The Histone Variant H3.3 Is Enriched at Drosophila Amplicon Origins but Does Not Mark Them for Activation. |
Q64883396 | The heterochromatin protein Swi6/HP1 activates replication origins at the pericentromeric region and silent mating-type locus. |
Q30312133 | The promoter of the Chinese hamster ovary dihydrofolate reductase gene regulates the activity of the local origin and helps define its boundaries |
Q27008596 | Three wise centromere functions: see no error, hear no break, speak no delay |
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