| scholarly article | Q13442814 |
| P2093 | author name string | Adriana Canapa | |
| Ettore Olmo | |||
| Marco Barucca | |||
| Maria Assunta Biscotti | |||
| Mariko Forconi | |||
| P2860 | cites work | Step-wise methylation of histone H3K9 positions heterochromatin at the nuclear periphery. | Q47068818 |
| A satellite DNA containing CENP-B box-like motifs is present in the antarctic scallop Adamussium colbecki | Q47867541 | ||
| Recurrent amplifications and deletions of satellite DNA accompanied chromosomal diversification in South American tuco-tucos (genus Ctenomys, Rodentia: Octodontidae): a phylogenetic approach | Q48347870 | ||
| Satellite DNA-associated siRNAs as mediators of heat shock response in insects | Q50509910 | ||
| A strand-specific burst in transcription of pericentric satellites is required for chromocenter formation and early mouse development | Q51897792 | ||
| LBR and lamin A/C sequentially tether peripheral heterochromatin and inversely regulate differentiation | Q52633974 | ||
| Involvement of satellite I noncoding RNA in regulation of chromosome segregation | Q54358612 | ||
| Telomeric noncoding RNA TERRA is induced by telomere shortening to nucleate telomerase molecules at short telomeres. | Q54406444 | ||
| Two RNAi complexes, RITS and RDRC, physically interact and localize to noncoding centromeric RNAs. | Q55039785 | ||
| A key role for stress-induced satellite III transcripts in the relocalization of splicing factors into nuclear stress granules | Q57259104 | ||
| Redundant Mechanisms to Form Silent Chromatin at Pericentromeric Regions Rely on BEND3 and DNA Methylation | Q57824334 | ||
| Two different Argonaute complexes are required for siRNA generation and heterochromatin assembly in fission yeast | Q57973165 | ||
| Origin and evolution of Mytilus mussel satellite DNAs | Q61755797 | ||
| Nucleotide sequences of HS-α satellite DNA from kangaroo rat dipodomys ordii and characterization of similar sequences in other rodents | Q67051800 | ||
| So much "junk" DNA in our genome | Q70462013 | ||
| An embryonic-like methylation pattern of classical satellite DNA is observed in ICF syndrome | Q72228831 | ||
| Shining a light on the genome's 'dark matter' | Q82920059 | ||
| Species-specific shifts in centromere sequence composition are coincident with breakpoint reuse in karyotypically divergent lineages | Q21092868 | ||
| The case for junk DNA | Q22065246 | ||
| Involvement of telomerase reverse transcriptase in heterochromatin maintenance | Q24337650 | ||
| Aberrant overexpression of satellite repeats in pancreatic and other epithelial cancers | Q24603754 | ||
| RNAi-mediated targeting of heterochromatin by the RITS complex | Q24623437 | ||
| Small silencing RNAs: an expanding universe | Q24653997 | ||
| Analysis of small RNA in fission yeast; centromeric siRNAs are potentially generated through a structured RNA | Q24655215 | ||
| Centromere RNA is a key component for the assembly of nucleoproteins at the nucleolus and centromere | Q24684130 | ||
| Methylation of histone H3 lysine 9 creates a binding site for HP1 proteins | Q27860456 | ||
| The THO complex component Thp2 counteracts telomeric R-loops and telomere shortening | Q27929516 | ||
| Constitutive heterochromatin formation and transcription in mammals | Q28080683 | ||
| Telomeric repeat containing RNA and RNA surveillance factors at mammalian chromosome ends | Q28116571 | ||
| Regulation of heterochromatic silencing and histone H3 lysine-9 methylation by RNAi | Q28218870 | ||
| WDHD1 modulates the post-transcriptional step of the centromeric silencing pathway | Q28585218 | ||
| Dicer-deficient mouse embryonic stem cells are defective in differentiation and centromeric silencing | Q28594776 | ||
| The diverse functions of histone lysine methylation | Q29614523 | ||
| The chromatin remodelling complex NoRC safeguards genome stability by heterochromatin formation at telomeres and centromeres | Q30542406 | ||
| Repetitive centromeric satellite RNA is essential for kinetochore formation and cell division | Q30597247 | ||
| The Paf1 complex represses small-RNA-mediated epigenetic gene silencing | Q30640303 | ||
| ATRX tolerates activity-dependent histone H3 methyl/phos switching to maintain repetitive element silencing in neurons | Q30653780 | ||
| TERRA and hnRNPA1 orchestrate an RPA-to-POT1 switch on telomeric single-stranded DNA | Q31002474 | ||
| Polymerase chain reaction amplification of the Bag320 satellite family reveals the ancestral library and past gene conversion events in Bacillus rossius (Insecta Phasmatodea). | Q31153414 | ||
| Evolution of satellite DNAs from the genus Palorus--experimental evidence for the "library" hypothesis | Q32033193 | ||
| Interplay of selective pressure and stochastic events directs evolution of the MEL172 satellite DNA library in root-knot nematodes | Q33257964 | ||
| Telomeres: protecting chromosomes against genome instability | Q33740892 | ||
| Stress-induced activation of heterochromatic transcription. | Q33742118 | ||
| The library model for satellite DNA evolution: a case study with the rodents of the genus Ctenomys (Octodontidae) from the Iberá marsh, Argentina. | Q33745327 | ||
| A long non-coding RNA is required for targeting centromeric protein A to the human centromere. | Q34094012 | ||
| Stc1: a critical link between RNAi and chromatin modification required for heterochromatin integrity. | Q34102684 | ||
| The non-coding RNA TERRA is a natural ligand and direct inhibitor of human telomerase | Q34146428 | ||
| Molecular dissection of telomeric repeat-containing RNA biogenesis unveils the presence of distinct and multiple regulatory pathways. | Q34178088 | ||
| Transcription within a functional human centromere | Q34268742 | ||
| Factors that promote H3 chromatin integrity during transcription prevent promiscuous deposition of CENP-A(Cnp1) in fission yeast | Q34303245 | ||
| Satellite DNA Evolution | Q34325064 | ||
| Dicer is essential for formation of the heterochromatin structure in vertebrate cells | Q34332793 | ||
| The centromere paradox: stable inheritance with rapidly evolving DNA. | Q34332859 | ||
| Long-time evolution and highly dynamic satellite DNA in leptodactylid and hylodid frogs | Q34362862 | ||
| Role of TERRA in the regulation of telomere length | Q34462603 | ||
| Mutant nuclear lamin A leads to progressive alterations of epigenetic control in premature aging | Q34652089 | ||
| Functional characterization of the TERRA transcriptome at damaged telomeres. | Q34687678 | ||
| Accumulation of small murine minor satellite transcripts leads to impaired centromeric architecture and function | Q34695366 | ||
| Developmentally regulated transcription of mammalian telomeres by DNA-dependent RNA polymerase II. | Q34729916 | ||
| Conserved DNA Motifs, Including the CENP-B Box-like, Are Possible Promoters of Satellite DNA Array Rearrangements in Nematodes | Q34796957 | ||
| Tandemly repeated DNA sequences and centromeric chromosomal regions of Arabidopsis species. | Q35137111 | ||
| Mechanism of siRNA production from repetitive DNA | Q35173293 | ||
| RNA-mediated epigenetic regulation of gene expression | Q35223649 | ||
| Endogenous transcription at the centromere facilitates centromere activity in budding yeast | Q35555636 | ||
| A global transcriptional analysis of Plasmodium falciparum malaria reveals a novel family of telomere-associated lncRNAs | Q35557707 | ||
| A novel satellite DNA isolated in Pecten jacobaeus shows high sequence similarity among molluscs | Q35592446 | ||
| BRCA1 tumour suppression occurs via heterochromatin-mediated silencing. | Q35618582 | ||
| ATRX contributes to epigenetic asymmetry and silencing of major satellite transcripts in the maternal genome of the mouse embryo | Q35635068 | ||
| Satellite DNA Modulates Gene Expression in the Beetle Tribolium castaneum after Heat Stress. | Q35746589 | ||
| 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 | ||
| The role of RNA interference in heterochromatic silencing | Q35889567 | ||
| Centromeric chromatin: what makes it unique? | Q36083261 | ||
| Why repetitive DNA is essential to genome function | Q36141901 | ||
| Functional elements residing within satellite DNAs | Q36303797 | ||
| In vivo binding of active heat shock transcription factor 1 to human chromosome 9 heterochromatin during stress. | Q36324150 | ||
| A small RNA response at DNA ends in Drosophila | Q36341498 | ||
| Transcription of Satellite III non-coding RNAs is a general stress response in human cells | Q36457069 | ||
| DNA hypomethylation and human diseases. | Q36625537 | ||
| ICF, an immunodeficiency syndrome: DNA methyltransferase 3B involvement, chromosome anomalies, and gene dysregulation | Q36725211 | ||
| siRNA-mediated heterochromatin establishment requires HP1 and is associated with antisense transcription | Q36954795 | ||
| Satellite DNAs between selfishness and functionality: structure, genomics and evolution of tandem repeats in centromeric (hetero)chromatin. | Q37053228 | ||
| KDM2A represses transcription of centromeric satellite repeats and maintains the heterochromatic state | Q37085752 | ||
| Role of non-coding RNA and heterochromatin in aneuploidy and cancer | Q37091377 | ||
| The heterochromatin protein 1 (HP1) family: put away a bias toward HP1. | Q37229600 | ||
| A 'higher order' of telomere regulation: telomere heterochromatin and telomeric RNAs | Q37293050 | ||
| CENP-H-containing complex facilitates centromere deposition of CENP-A in cooperation with FACT and CHD1 | Q37345993 | ||
| TERRA RNA binding to TRF2 facilitates heterochromatin formation and ORC recruitment at telomeres | Q37359903 | ||
| 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 | ||
| The past, present, and future of human centromere genomics | Q37665277 | ||
| Satellite DNA-Mediated Effects on Genome Regulation | Q38023677 | ||
| Pericentric and centromeric transcription: a perfect balance required | Q38023731 | ||
| Hutchinson–Gilford progeria syndrome through the lens of transcription | Q38089892 | ||
| Mammalian satellite DNA: a speaking dumb. | Q38098653 | ||
| Telomeric noncoding RNA: telomeric repeat-containing RNA in telomere biology | Q38187630 | ||
| Satellite non-coding RNAs: the emerging players in cells, cellular pathways and cancer | Q38570602 | ||
| Conserved organization of centromeric chromatin in flies and humans | Q38692366 | ||
| Telomere length regulates TERRA levels through increased trimethylation of telomeric H3K9 and HP1α. | Q39291071 | ||
| Human chromosomes 9, 12, and 15 contain the nucleation sites of stress-induced nuclear bodies | Q39617231 | ||
| Non-coding murine centromeric transcripts associate with and potentiate Aurora B kinase | Q39835411 | ||
| RNA recognition motif 2 directs the recruitment of SF2/ASF to nuclear stress bodies | Q39946234 | ||
| Human chromosome 1 satellite 3 DNA is decondensed, demethylated and transcribed in senescent cells and in A431 epithelial carcinoma cells. | Q40074959 | ||
| Transcriptional activation of a constitutive heterochromatic domain of the human genome in response to heat shock. | Q40509160 | ||
| A role for CTCF and cohesin in subtelomere chromatin organization, TERRA transcription, and telomere end protection. | Q41360849 | ||
| A human centromere antigen (CENP-B) interacts with a short specific sequence in alphoid DNA, a human centromeric satellite | Q41590805 | ||
| The centromeric retrotransposons of rice are transcribed and differentially processed by RNA interference | Q42112994 | ||
| RNAPol-ChIP analysis of transcription from FSHD-linked tandem repeats and satellite DNA. | Q42174305 | ||
| Stress-induced transcription of satellite III repeats. | Q42592954 | ||
| Preservation and high sequence conservation of satellite DNAs suggest functional constraints | Q42667586 | ||
| Epigenetic regulation of repetitive elements is attenuated by prolonged heat stress in Arabidopsis. | Q42874657 | ||
| Cell cycle-dependent accumulation of histone H3.3 and euchromatic histone modifications in pericentromeric heterochromatin in response to a decrease in DNA methylation levels | Q42989297 | ||
| A role for small RNAs in DNA double-strand break repair. | Q45345570 | ||
| Comparative study of satellite DNA in ants of the Messor genus. | Q45872239 | ||
| Roles of the Clr4 methyltransferase complex in nucleation, spreading and maintenance of heterochromatin. | Q46698178 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 463-477 | |
| P577 | publication date | 2015-09-25 | |
| P1433 | published in | Chromosome Research | Q15765850 |
| P1476 | title | Transcription of tandemly repetitive DNA: functional roles | |
| P478 | volume | 23 |
| Q57482598 | A Short Tandem Repeat-Enriched RNA Assembles a Nuclear Compartment to Control Alternative Splicing and Promote Cell Survival |
| Q42322579 | CENP-A chromatin disassembly in stressed and senescent murine cells |
| Q38608822 | Centromere Transcription: Means and Motive |
| Q96174510 | Centromere studies in the era of 'telomere-to-telomere' genomics |
| Q92689413 | Centromeres of Cucumis melo L. comprise Cmcent and two novel repeats, CmSat162 and CmSat189 |
| Q39365690 | Centromeric Non-coding Transcription: Opening the Black Box of Chromosomal Instability? |
| Q42774406 | Chromatin-associated transcripts of tandemly repetitive DNA sequences revealed by RNA-FISH. |
| Q52881193 | Comparative Analysis of Repetitive DNA between the Main Vectors of Chagas Disease: Triatoma infestans and Rhodnius prolixus. |
| Q38585632 | Completing the human genome: the progress and challenge of satellite DNA assembly |
| Q64075926 | Conservation, Divergence, and Functions of Centromeric Satellite DNA Families in the Bovidae |
| Q47907715 | DNA Sequences in Centromere Formation and Function |
| Q92636236 | Decoding the Role of Satellite DNA in Genome Architecture and Plasticity-An Evolutionary and Clinical Affair |
| Q94591294 | Disruption of ATRX-RNA interactions uncovers roles in ATRX localization and PRC2 function |
| Q38703950 | Dissecting the Satellite DNA Landscape in Three Cactophilic Drosophila Sequenced Genomes. |
| Q47142412 | FA-SAT Is an Old Satellite DNA Frozen in Several Bilateria Genomes. |
| Q89752712 | Genetics, epigenetics and back again: Lessons learned from neocentromeres |
| Q38593158 | Helitrons shaping the genomic architecture of Drosophila: enrichment of DINE-TR1 in α- and β-heterochromatin, satellite DNA emergence, and piRNA expression |
| Q91678536 | Heterochromatin protein 1α interacts with parallel RNA and DNA G-quadruplexes |
| Q46314363 | Identification and characterization of a subtelomeric satellite DNA in Callitrichini monkeys |
| Q91937018 | In Silico Identification of Novel Biomarkers and Development of New Rapid Diagnostic Tests for the Filarial Parasites Mansonella perstans and Mansonella ozzardi |
| Q40126784 | Loss of DNA methylation in zebrafish embryos activates retrotransposons to trigger antiviral signaling. |
| Q37239971 | Loss of Tau protein affects the structure, transcription and repair of neuronal pericentromeric heterochromatin |
| Q52625608 | New insights into the genome repetitive fraction of the Antarctic bivalve Adamussium colbecki |
| Q46533892 | New molecular markers and cytogenetic probes enable chromosome identification of wheat-Thinopyrum intermedium introgression lines for improving protein and gluten contents |
| Q46853457 | Potential Role of Phase Separation of Repetitive DNA in Chromosomal Organization |
| Q89565412 | Probing the function of long noncoding RNAs in the nucleus |
| Q47579169 | Rapid molecular assays to study human centromere genomics. |
| Q42654883 | Repetitive DNA in eukaryotic genomes. |
| Q59792794 | Rex Retroelements and Teleost Genomes: An Overview |
| Q92941694 | Satellite DNA at the Centromere is Dispensable for Segregation Fidelity |
| Q41673553 | Satellite DNA: An Evolving Topic |
| Q41345087 | Satellite RNAs promote pancreatic oncogenic processes via the dysfunction of YBX1. |
| Q90133972 | Seq'ing identity and function in a repeat-derived noncoding RNA world |
| Q38570606 | Structural and functional liaisons between transposable elements and satellite DNAs |
| Q36842112 | The major horse satellite DNA family is associated with centromere competence |
| Q37738656 | The small non-coding RNA processing machinery of two living fossil species, lungfish and coelacanth, gives new insights into the evolution of the Argonaute protein family |
| Q38986164 | Transcription of highly repetitive tandemly organized DNA in amphibians and birds: A historical overview and modern concepts. |
| Q41986872 | W-enriched satellite sequence in the Indian meal moth, Plodia interpunctella (Lepidoptera, Pyralidae). |
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