scholarly article | Q13442814 |
P356 | DOI | 10.1007/S00018-015-2124-7 |
P698 | PubMed publication ID | 26748759 |
P50 | author | Sylvia Erhardt | Q58681037 |
Silvana Rosic | Q59541781 | ||
P2093 | author name string | Sylvia Erhardt | |
Silvana Rošić | |||
P2860 | cites work | The Hallmarks of Cancer | Q221226 |
Heterochromatin integrity affects chromosome reorganization after centromere dysfunction. | Q53458929 | ||
A heterochromatin barrier partitions the fission yeast centromere into discrete chromatin domains. | Q53639483 | ||
Involvement of satellite I noncoding RNA in regulation of chromosome segregation. | Q54358612 | ||
RNA Polymerase II Is Required for RNAi-Dependent Heterochromatin Assembly | Q56092183 | ||
SUMOylation promotes de novo targeting of HP1α to pericentric heterochromatin | Q57549485 | ||
Neocentromere activity of structurally acentric mini-chromosomes in Drosophila | Q74026996 | ||
A cell cycle-regulated GATA factor promotes centromeric localization of CENP-A in fission yeast | Q78817906 | ||
Coupling of double-stranded RNA synthesis and siRNA generation in fission yeast RNAi | Q80688207 | ||
LINE retrotransposon RNA is an essential structural and functional epigenetic component of a core neocentromeric chromatin | Q21145016 | ||
The role of heterochromatin in centromere function | Q22065919 | ||
Centromere-specific assembly of CENP-a nucleosomes is mediated by HJURP. | Q24321321 | ||
HJURP is a cell-cycle-dependent maintenance and deposition factor of CENP-A at centromeres | Q24321377 | ||
Centromeric chromatin exhibits a histone modification pattern that is distinct from both euchromatin and heterochromatin | Q24537593 | ||
RNA-dependent RNA polymerase is an essential component of a self-enforcing loop coupling heterochromatin assembly to siRNA production | Q24557548 | ||
Centromeres of the fission yeast Schizosaccharomyces pombe are highly variable genetic loci | Q24602534 | ||
Aberrant overexpression of satellite repeats in pancreatic and other epithelial cancers | Q24603754 | ||
Centromere RNA is a key component for the assembly of nucleoproteins at the nucleolus and centromere | Q24684130 | ||
The CHD remodeling factor Hrp1 stimulates CENP-A loading to centromeres | Q24805993 | ||
Chromosomes. CENP-C reshapes and stabilizes CENP-A nucleosomes at the centromere. | Q27331790 | ||
Methylation of histone H3 lysine 9 creates a binding site for HP1 proteins | Q27860456 | ||
Constitutive heterochromatin formation and transcription in mammals | Q28080683 | ||
Overexpression and mistargeting of centromere protein-A in human primary colorectal cancer | Q28184405 | ||
FACT facilitates transcription-dependent nucleosome alteration | Q28203107 | ||
Structural model for the cooperative assembly of HIV-1 Rev multimers on the RRE as deduced from analysis of assembly-defective mutants | Q28207678 | ||
Regulation of heterochromatic silencing and histone H3 lysine-9 methylation by RNAi | Q28218870 | ||
The human CENP-A centromeric nucleosome-associated complex | Q28235264 | ||
Comprehensive analysis of the ICEN (Interphase Centromere Complex) components enriched in the CENP-A chromatin of human cells | Q28241666 | ||
DNA binding of centromere protein C (CENPC) is stabilized by single-stranded RNA | Q28472760 | ||
Dicer-deficient mouse embryonic stem cells are defective in differentiation and centromeric silencing | Q28594776 | ||
Posttranslational modification of CENP-A influences the conformation of centromeric chromatin | Q30415280 | ||
Esperanto for histones: CENP-A, not CenH3, is the centromeric histone H3 variant | Q30419902 | ||
A unified phylogeny-based nomenclature for histone variants | Q30426389 | ||
Repetitive centromeric satellite RNA is essential for kinetochore formation and cell division | Q30597247 | ||
Plasticity of fission yeast CENP-A chromatin driven by relative levels of histone H3 and H4. | Q33293168 | ||
RNA Pol II promotes transcription of centromeric satellite DNA in beetles | Q33319570 | ||
HJURP binds CENP-A via a highly conserved N-terminal domain and mediates its deposition at centromeres | Q33667469 | ||
Histone H4 Lys 20 monomethylation of the CENP-A nucleosome is essential for kinetochore assembly | Q33844929 | ||
Characterization of Dicer-deficient murine embryonic stem cells. | Q33916756 | ||
A super-resolution map of the vertebrate kinetochore | Q33935029 | ||
Molecular characterization of a maize B chromosome centric sequence | Q33961735 | ||
Molecular structure of a functional Drosophila centromere | Q34065770 | ||
A long non-coding RNA is required for targeting centromeric protein A to the human centromere. | Q34094012 | ||
The centromere: chromatin foundation for the kinetochore machinery | Q34160736 | ||
Identification of noncoding transcripts from within CENP-A chromatin at fission yeast centromeres. | Q34181375 | ||
Factors that promote H3 chromatin integrity during transcription prevent promiscuous deposition of CENP-A(Cnp1) in fission yeast | Q34303245 | ||
The centromere paradox: stable inheritance with rapidly evolving DNA. | Q34332859 | ||
Chromosomal dynamics of human neocentromere formation | Q34338174 | ||
The FACT complex interacts with the E3 ubiquitin ligase Psh1 to prevent ectopic localization of CENP-A. | Q34342927 | ||
The octamer is the major form of CENP-A nucleosomes at human centromeres | Q34342975 | ||
RNA Pol II subunit Rpb7 promotes centromeric transcription and RNAi-directed chromatin silencing | Q34456753 | ||
Sequence features and transcriptional stalling within centromere DNA promote establishment of CENP-A chromatin. | Q34465647 | ||
Epigenetic engineering shows H3K4me2 is required for HJURP targeting and CENP-A assembly on a synthetic human kinetochore | Q34513328 | ||
Human centromeric chromatin is a dynamic chromosomal domain that can spread over noncentromeric DNA | Q34573024 | ||
Structure and function of the eukaryotic ribosome: the next frontier | Q34635324 | ||
Accumulation of small murine minor satellite transcripts leads to impaired centromeric architecture and function | Q34695366 | ||
Epigenetic centromere propagation and the nature of CENP-a nucleosomes. | Q34700376 | ||
RNAs templating chromatin structure for dosage compensation in animals | Q35115821 | ||
RNA-mediated epigenetic regulation of gene expression | Q35223649 | ||
The cyclin B1 gene is actively transcribed during mitosis in HeLa cells. | Q42724508 | ||
Hypermorphic expression of centromeric retroelement-encoded small RNAs impairs CENP-A loading | Q44277358 | ||
Cell cycle control of centromeric repeat transcription and heterochromatin assembly | Q46793624 | ||
The E3 ligase CUL3/RDX controls centromere maintenance by ubiquitylating and stabilizing CENP-A in a CAL1-dependent manner. | Q50459328 | ||
Genomic and genetic characterization of rice Cen3 reveals extensive transcription and evolutionary implications of a complex centromere. | Q50720987 | ||
A strand-specific burst in transcription of pericentric satellites is required for chromocenter formation and early mouse development. | Q51897792 | ||
A new role for hth in the early pre-blastodermic divisions in drosophila. | Q52698479 | ||
Kinetochore geometry defined by cohesion within the centromere. | Q53400175 | ||
Mislocalization of the Drosophila centromere-specific histone CID promotes formation of functional ectopic kinetochores | Q35335808 | ||
Endogenous transcription at the centromere facilitates centromere activity in budding yeast | Q35555636 | ||
Long-range silencing and position effects at telomeres and centromeres: parallels and differences | Q35587934 | ||
Active transcription and essential role of RNA polymerase II at the centromere during mitosis | Q35751023 | ||
Epigenetic engineering: histone H3K9 acetylation is compatible with kinetochore structure and function | Q35770230 | ||
Establishment of Centromeric Chromatin by the CENP-A Assembly Factor CAL1 Requires FACT-Mediated Transcription. | Q35829849 | ||
Transcription of the 1.688 satellite DNA family is under the control of RNA interference machinery in Drosophila melanogaster ovaries | Q35846300 | ||
Methylation of CenH3 arginine 37 regulates kinetochore integrity and chromosome segregation | Q36061323 | ||
Centromere formation: from epigenetics to self-assembly | Q36368028 | ||
Cell-cycle regulation of cohesin stability along fission yeast chromosomes | Q36392012 | ||
Transcription of Satellite III non-coding RNAs is a general stress response in human cells | Q36457069 | ||
Transcription in the maintenance of centromere chromatin identity | Q36478032 | ||
The centromere-kinetochore complex: a repeat subunit model | Q36529852 | ||
Phosphorylation of the CENP-A amino-terminus in mitotic centromeric chromatin is required for kinetochore function | Q36884225 | ||
Epigenetic regulation of centromeric chromatin: old dogs, new tricks? | Q36981211 | ||
The chromosomal passenger complex (CPC): from easy rider to the godfather of mitosis | Q37060765 | ||
A transcriptomic analysis of human centromeric and pericentric sequences in normal and tumor cells | Q37406030 | ||
The secret message of heterochromatin: new insights into the mechanisms and function of centromeric and pericentric repeat sequence transcription. | Q37468777 | ||
Focus on the centre: the role of chromatin on the regulation of centromere identity and function. | Q37560593 | ||
Centromere-encoded RNAs are integral components of the maize kinetochore. | Q37619449 | ||
The past, present, and future of human centromere genomics | Q37665277 | ||
Pericentric and centromeric transcription: a perfect balance required | Q38023731 | ||
RNA as a structural and regulatory component of the centromere | Q38043059 | ||
Evolutionary cell biology of chromosome segregation: insights from trypanosomes | Q38103341 | ||
Genetic and epigenetic regulation of centromeres: a look at HAC formation. | Q38355748 | ||
Prognostic value of centromere protein-A expression in patients with epithelial ovarian cancer | Q38396441 | ||
Conserved organization of centromeric chromatin in flies and humans | Q38692366 | ||
Mislocalization of the centromeric histone variant CenH3/CENP-A in human cells depends on the chaperone DAXX. | Q39023712 | ||
Heterochromatin boundaries are hotspots for de novo kinetochore formation | Q39521875 | ||
Non-coding murine centromeric transcripts associate with and potentiate Aurora B kinase | Q39835411 | ||
Genomic and genetic definition of a functional human centromere | Q40776556 | ||
Sequence analysis of an 80 kb human neocentromere | Q40825786 | ||
Profile of histone lysine methylation across transcribed mammalian chromatin | Q41077260 | ||
CENP-A K124 Ubiquitylation Is Required for CENP-A Deposition at the Centromere | Q41333170 | ||
Mitotic repression of the transcriptional machinery. | Q41516335 | ||
Heterochromatin links to centromeric protection by recruiting shugoshin | Q42152372 | ||
Stress-induced transcription of satellite III repeats. | Q42592954 | ||
Repetitive DNA in eukaryotic genomes. | Q42654883 | ||
P433 | issue | 7 | |
P921 | main subject | nuisance | Q1156462 |
P304 | page(s) | 1387-1398 | |
P577 | publication date | 2016-01-09 | |
P1433 | published in | Cellular and Molecular Life Sciences | Q5058352 |
P1476 | title | No longer a nuisance: long non-coding RNAs join CENP-A in epigenetic centromere regulation | |
P478 | volume | 73 |
Q38655732 | A Matter of Scale and Dimensions: Chromatin of Chromosome Landmarks in the Fungi |
Q96303708 | Bioinformatics Analysis Reveals Biomarkers With Cancer Stem Cell Characteristics in Lung Squamous Cell Carcinoma |
Q38608829 | Centrochromatin of Fungi |
Q38608822 | Centromere Transcription: Means and Motive |
Q92811766 | Centromeric Non-Coding RNAs: Conservation and Diversity in Function |
Q37063769 | Chromatin assembly: Journey to the CENter of the chromosome |
Q38737169 | Chromatin loops and causality loops: the influence of RNA upon spatial nuclear architecture |
Q46316443 | Chromatin-associated noncoding RNAs in development and inheritance |
Q90669521 | Continuous salt stress-induced long non-coding RNAs and DNA methylation patterns in soybean roots |
Q47907715 | DNA Sequences in Centromere Formation and Function |
Q89752712 | Genetics, epigenetics and back again: Lessons learned from neocentromeres |
Q38885455 | Kinetochore assembly and function through the cell cycle |
Q47942929 | Long Noncoding RNA: Genome Organization and Mechanism of Action |
Q89529208 | Painting of Fourth and the X-Linked 1.688 Satellite in D. melanogaster is Involved in Chromosome-Wide Gene Regulation |
Q90173075 | Phosphorylation of Drosophila CENP-A on serine 20 regulates protein turn-over and centromere-specific loading |
Q36031643 | Repeat Composition of CenH3-chromatin and H3K9me2-marked heterochromatin in Sugar Beet (Beta vulgaris). |
Q47237403 | The long intergenic non-coding RNA (lincRNA) landscape of the soybean genome. |
Q36842112 | The major horse satellite DNA family is associated with centromere competence |
Q38986164 | Transcription of highly repetitive tandemly organized DNA in amphibians and birds: A historical overview and modern concepts. |
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