Spelling suggestions: "subject:"histone modifications"" "subject:"histone codifications""
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Identification Of Histone Demthylases In Budding Yeast And DNA Binding Motifs Of Human Demethylase RBP2Tu, Shengjiang 20 August 2008 (has links)
No description available.
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Study of the SAGA deubiquitination module: identification of new modulators and its implication on Spinocerebellar Ataxia Type 7Oliete Calvo, Paula 01 September 2017 (has links)
Regulation of chromatin by epigenetic modifications is a fundamental step during the control of gene expression in eukaryotic cells. The participation of different factors including histone chaperones, chromatin remodeling complexes and histone-modifying complexes regulate chromatin dynamics and ensure the correct metabolism of transcripts that need to be exported to the cytoplasm. In these lines, post-translational modifications including monoubiquitination of histone H2B (H2Bub1) and methylation of histone H3 represent a well-studied histone cross-talk which is required for chromatin integrity and transcription. Additionally, the transition from H2Bub1 to its deubiquitinated form by Ubp8, the DUB enzyme from SAGA (Spt-Ada-Gcn5-acetyltranferase) co-activator complex, is fundamental to obtain a correct gene expression. In this work, we demonstrate that the histone chaperone Asf1 and the Ran-binding protein Mog1, participate in maintaining correct levels of H2Bub1. We show that Mog1 is required for the trimethylation of histone H3 at lysine 4 (H3K4me3), hence, acting as a modulator of histone cross-talk. Mog1 role into gene expression is also demonstrated by its physical and genetically interaction with transcription factors including SAGA and COMPASS complexes. Indeed, we demonstrate that Mog1 interacts genetically with TREX-2 subunits and affects mRNA export. During this work, we have also focused in understanding the molecular mechanisms surrounding Spinocerebellar Ataxia Type 7 (SCA7) which is a rare disease caused by amino acid glutamine (Q) repeats within the DUBm component, ATXN7. Therefore, our interest has been directed towards the study of new mechanisms that trigger SCA7 such as the DUB activity from SAGA complex, protein-protein interaction networks and metabolic profiles. / La regulación de la cromatina a través de modificaciones epigenéticas es un paso fundamental durante el control de la expresión génica en células eucariotas. La participación de diferentes factores tales como chaperonas de histonas, complejos de remodelación de la cromatina y complejos modificadores de histonas, regulan la dinámica de la cromatina y garantizan el correcto metabolismo de los transcritos que necesitan ser exportados al citoplasma. De esta forma, las modificaciones postraduccionales que incluyen la monoubicuitinación de la histona H2B (H2Bub1) y la metilación de la histona H3 representan un "cross-talk" de histonas la cual es requerida para la integridad de la cromatina y la transcripción. Además, la transición de H2Bub1 a su forma desubicuitinada por Ubp8, la enzima DUB del complejo co-activador SAGA (Spt-Ada-Gcn5-acetiltranferasa), es necesaria para obtener una expresión génica correcta. En este trabajo, se demuestra que la chaperona de histona Asf1 y la proteína de unión a Ran, Mog1, participan en el mantenimiento de los niveles de H2Bub1. Se demuestra que Mog1 es necesaria para la trimetilación de la histona H3 en la lisina 4 (H3K4me3), actuando como un modulador del "cross-talk" de histonas. El papel de Mog1 en la expresión génica también se demuestra por sus interacciones físicas y genéticas con factores de transcripción, incluyendo los complejos SAGA y COMPASS. Además, demostramos que Mog1 interactúa genéticamente con subunidades de TREX-2 y afecta a la exportación de mRNAs. Durante este trabajo, también nos hemos centrado en la comprensión de los mecanismos moleculares que envuelven a la Ataxia Espinocerebelosa Tipo 7 (SCA7), que es una enfermedad rara causada por una repetición de aminoácidos glutamina (Q) dentro del componente del DUBm, ATXN7. Por lo tanto, nuestro interés se ha dirigido hacia el estudio de nuevos mecanismos que desencadenan SCA7, como la actividad DUB del complejo SAGA, las interacciones proteína-proteína y los perfiles metabólicos. / La regulació de la cromatina a través de modificacions epigenètiques és un pas fonamental durant el control de l'expressió gènica en cèl·lules eucariotes. La participació de diferents factors tals com chaperones d'histones, complexos de remodelació de la cromatina i complexos modificadors d'histones, regulen la dinàmica de la cromatina i garanteixen el correcte metabolisme dels transcrits que necessiten ser exportats al citoplasma. D'aquesta forma, les modificacions postraduccionals que inclouen la monoubicuitinació de la histona H2B (H2Bub1) i la metilació de la histona H3 representen un "cross-talk" d'histones la qual és requerida per a la integritat de la cromatina i la transcripció. A més, la transició d'H2Bub1 a la seua forma desubicuitinada per Ubp8, l'enzim DUB del complex co-activador SAGA (Spt-Ada-Gcn5-acetiltranferasa), és necessària per a obtenir una expressió gènica correcta. En aquest treball, es demostra que la chaperona de histona Asf1 i la proteïna d'unió a Ran, Mog1, participen en el manteniment dels nivells d'H2Bub1. Es demostra que Mog1 és necessària per a la trimetilació de la histona H3 en la lisina 4 (H3K4me3), actuant com un modulador del "cross-talk" d'histones. El paper de Mog1 en l'expressió gènica també es demostra per les seues interaccions físiques i genètiques amb factors de transcripció, incloent els complexos SAGA i COMPASS. A més, vam demostrar que Mog1 interactua genèticament amb subunitats de TREX-2 i afecta a l'exportació de mRNA. Durant aquest treball, també ens hem centrat en la comprensió dels mecanismes moleculars que envolten a l'Atàxia Espinocerebelosa Tipus 7 (SCA7), que és una malaltia rara causada per una repetició d'aminoàcids glutamina (Q) dins del component del DUBm, ATXN7. Per tant, el nostre interès s'ha dirigit cap a l'estudi de nous mecanismes que desencadenen SCA7, com l'activitat DUB del complex SAGA, les interacciones proteïna-proteïna i els perfils metabòlics. / Oliete Calvo, P. (2017). Study of the SAGA deubiquitination module: identification of new modulators and its implication on Spinocerebellar Ataxia Type 7 [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/86155
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Epigenetic regulation of osteoblast differentiationNajafova, Zeynab 09 August 2016 (has links)
No description available.
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Sierra platinumMüller, Lydia, Gerighausen, Daniel, Farman, Mariam, Zeckzer, Dirk 19 December 2016 (has links) (PDF)
Background: Histone modifications play an important role in gene regulation. Their genomic locations are of great interest. Usually, the location is measured by ChIP-seq and analyzed with a peak-caller. Replicated ChIP-seq experiments become more and more available. However, their analysis is based on single-experiment peak-calling or on tools like PePr which allows peak-calling of replicates but whose underlying model might not be suitable for the conditions under which the experiments are performed. Results: We propose a new peak-caller called \"Sierra Platinum\" that allows peak-calling of replicated ChIP-seq
experiments. Moreover, it provides a variety of quality measures together with integrated visualizations supporting the assessment of the replicates and the resulting peaks, as well as steering the peak-calling process. Conclusion: We show that Sierra Platinum outperforms currently available methods using a newly generated benchmark data set and using real data from the NIH Roadmap Epigenomics Project. It is robust against noisy replicates.
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Modulação do trofoblasto bovino na gestação de embriões clonados / Modulation of bovine trophoblast in cloned pregnancyBarreto, Rodrigo da Silva Nunes 24 August 2015 (has links)
O sucesso da gestação, e nascimento da prole saudável, depende da adequada formação, desenvolvimento e funcionamento da placenta. Entretanto, são observadas altas perdas durante o primeiro terço da gestação de embriões bovinos produzidos por transferência de núcleo de célula somática (TNCS), principalmente causadas por alterações placentárias, decorrentes da incompleta reprogramação epigenética no desenvolvimento embrionário. Normalmente, após a fecundação, o DNA paterno é desmetilado durante as primeiras horas do desenvolvimento, enquanto o DNA materno é desmetilado de forma passiva. Entretanto nos embriões TNCS a desmetilação do DNA é tardia e incompleta, resultando numa alteração do padrão epigenético, principalmente nos níveis de metilação (5mC) e hidroximetilação (5hmC) do DNA e nas histonas. Além disso, na gestação TNCS há expressão precoce das moléculas do complexo de histocompatibilidade principal de classe I (MHC-I), associada ao aumento de infiltrados inflamatórios na placenta e à rejeição imunológica ao feto. O objetivo desse trabalho foi de verificar, na placenta bovina TNCS e controle, os níveis globais de 5mC e 5hmC, e de algumas modificações de histonas importantes na formação do trofectoderma ou por serem modificações clássicas, além de imunolocalizar moléculas de MHC-I. Para tanto foram utilizadas amostras de placentônio TNCS no primeiro (n = 5) e terceiro (n = 6) terço gestacional; e como controle, placentônios com controle no primeiro (n = 6) e terceiro (n = 6). Foram realizadas reações de imunohistoquímica para modificações no DNA (5mC, 5hmC) e nas histonas (H3K4me3, H3K27me3, H3K9ac, H3K9me2/3) e para MHC-I (Qa-2 e IL-A88); além de reações de PCR quantitativo para enzimas responsáveis pelas modificações no DNA (DNMT1, TET1, TET3), para alguns genes relacionados com o desenvolvimento da placenta (PAG9, PHDLA2, SNRPN e TSSC4) e para isoformas de MHC-I (NC1-4 e JSP-1). Houve aumento dos níveis globais de metilação, e diminuição de hidroximetilação, na placenta TNCS durante o primeiro trimestre gestacional. Os níveis de H3K4me3 foram estáveis na placenta controle e crescentes na placenta TNCS, enquanto que a H3K27me3 decresceu na placenta controle e foi estável na placenta TNCS. Na placenta TNCS, aos 60 dias, foram observados os menores níveis globais H3K9ac, porém H3K9me2/3 não diferiram entre as idades e tipos gestacionais estudados. Foi identificado MHC-I no trofoblasto do placentônio bovino nas idades analisadas, com variações de intensidade dependendo da isoforma detectada, além de que a placenta controle e a TNCS apresentam padrões diferentes na expressão de MHC-I. De modo geral, o menores níveis de metilação do DNA encontrados na placenta TNCS aos 60 dias de gestação, indica ser um mecanismo compensatório para ativar a expressão gênica. Visto que a as modificações de histona levam a um estado repressivo da expressão gênica, já que a bivalência entre H3K4me3 e H3K27me3 e os níveis de H3K9ac estão diminuídos. Ainda na placenta TNCS aos 60 dias, há uma alta expressão de MHC-I, levando a resposta imune do sistema materno contra os tecidos fetais. Portanto vários eventos são presentes e parecem contribuir para instabilidade da gestação inicial em clones, coincidindo com a alta taxa de perdas gestacionais nessa fase / Pregnancy success depends of adequate placental formation, development and function. Therefore, the highest loses rates are found during first trimester pregnancies of bovine embryos produced by somatic cell nuclear transfer (NT), majorly by placental alterations, due to incomplete epigenetic reprogramming during embrionary development. Normally, after fecundation, paternal DNA is actively demethylated at first hours of development; where as maternal DNA is passively demethylated. However in NT embryos the DNA demethylation is late and incomplete, resulting in changes of epigenetic patterns, majorly in methylation (5mC), hydroxymethylation (5hmC) and histone levels. Furthermore, in NT pregnancy there is premature expression of class I major histocompatibility complex (MHC-I), associated with inflammatory infiltrates increases and immunological rejection against fetus. The aim of this work was to evaluate global levels of 5mC, 5hmC and some posttranslational histone modifications and MHC-I molecules expression of bovine placenta in NT and control models. For this, NT and control bovine placentome were collected at first (n = 6) and third (n = 6) trimester of pregnancy. Immunohistochemistry reactions were performed to assay DNA methylation (5mC) and (5hmC) and posttranslational histone modifications (H3K4me3, H3K27me3, H3K9ac, H3K9me2/3) and MHC-I molecules (Qa-2 e IL-A88). Quantitative PCR reactions were performed to evaluate the expression of DNA modifications related enzymes (DNMT1, TET1 and TET2), MHC-I classical (JSP-1) and non-classical (NC1-4) isoforms, and imprinted genes expression (SNRPN, TSSC4 and PHDLA2). In the NT placenta there was an increase in the global methylation and decreased hydromethylation level at first trimester. Levels of H3K4me3 were constant at control placenta while increased in NT placenta. For H3K27me3, the levels decreased in control placenta and were stable at NT counterparts. At 60 days of pregnancy in NT placenta, were observed low levels of global H3K9ac, but no differences of H3K9me2/3 levels were found between pregnancy ages or type. We identified MHC-I at bovine placentomal trophoblast in all ages analyzed, with intensity variation of different isoforms. In general, low levels of DNA methylation at day 60 of pregnancy of TNCS placenta, indicates a compensatory mechanism to active genic expression. Since histone modifications, in this period, leads to repressive status, because bivalence of H3K4me3 and H3K27me3 and levels of H3K9ac were diminished. Also at day 60 of pregnancy of TNCS placenta, MHC-I is highly expressed and leads to maternal immune response against fetus tissue. In conclusion, several events are present and apparently contribute to early clone pregnancy instability, coinciding with high pregnancy losses in that phase
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Decoding the Structural Layer of Transcriptional Regulation : Computational Analyses of Chromatin and Chromosomal AberrationsAndersson, Robin January 2010 (has links)
Gene activity is regulated at two separate layers. Through structural and chemical properties of DNA – the primary layer of encoding – local signatures may enable, or disable, the binding of proteins or complexes of them with regulatory potential to the DNA. At a higher level – the structural layer of encoding – gene activity is regulated through the properties of higher order DNA structure, chromatin, and chromosome organization. Cells with abnormal chromosome compaction or organization, e.g. cancer cells, may thus have perturbed regulatory activities resulting in abnormal gene activity. Hence, there is a great need to decode the transcriptional regulation encoded in both layers to further our understanding of the factors that control activity and life of a cell and, ultimately, an organism. Modern genome-wide studies with those aims rely on data-intense experiments requiring sophisticated computational and statistical methods for data handling and analyses. This thesis describes recent advances of analyzing experimental data from quantitative biological studies to decipher the structural layer of encoding in human cells. Adopting an integrative approach when possible, combining multiple sources of data, allowed us to study the influences of chromatin (Papers I and II) and chromosomal aberrations (Paper IV) on transcription. Combining chromatin data with chromosomal aberration data allowed us to identify putative driver oncogenes and tumor-suppressor genes in cancer (Paper IV). Bayesian approaches enabling the incorporation of background information in the models and the adaptability of such models to data have been very useful. Their usages yielded accurate and narrow detection of chromosomal breakpoints in cancer (Papers III and IV) and reliable positioning of nucleosomes and their dynamics during transcriptional regulation at functionally relevant regulatory elements (Paper II). Using massively parallel sequencing data, we explored the chromatin landscapes of human cells (Papers I and II) and concluded that there is a preferential and evolutionary conserved positioning at internal exons nearly unaffected by the transcriptional level. We also observed a strong association between certain histone modifications and the inclusion or exclusion of an exon in the mature gene transcript, suggesting a functional role in splicing.
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Early Epigenetic Regulation of the Adaptive Immune Response Gene CIITAMehta, Ninad T 01 December 2010 (has links)
The precise regulation of Major Histocompatibility class II (MHC-II) genes plays an important role in the control of the adaptive immune response. MHC-II genes are expressed constitutively in only a few cell types, but their expression can be induced by the inflammatory response cytokine interferon gamma (INF-γ). The regulation of MHC-II is controlled by a Master Regulator, the class II transactivator (CIITA). Multiple studies have shown that CIITA regulated expression of MHC-II is controlled and induced by INF-γ. It has been also shown that a functional CIITA gene is necessary for the expression of MHC-II genes. CIITA is thus a general regulator of both constitutive and inducible MHC-II expression. Although much is known about the transcription factors necessary for CIITA expression, there is little information as to the epigenetic modifications and the requisite enzymes needed to provide these transcription factors access to DNA. Previous studies in the Greer lab have shown that increased levels of acetylation of histones H3 upon INF-γ stimulation, as does tri-methylation of H3K4 upon prolonged cytokine stimulation. Similar observations were made at early time points post IFN-γ stimulation, where there is an instantaneous increase in the levels of H3K18ac and H3K4me3. In contrast to this, the levels of silencing modifications begin to drop with in the first 20 minutes of IFN-γ stimulation. The binding of STAT1 reaches its peak at about 60 minutes and the first transcripts for the protein start to appear as early as 40 minutes post the cytokines stimulation. Our study is the first to link the rapidly occurring epigenetic changes at the CIITA promoter pIV to EZH2
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The role of H2B monoubiquitination in cellular differentiationKarpiuk, Oleksandra 05 November 2012 (has links)
No description available.
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Modulação do trofoblasto bovino na gestação de embriões clonados / Modulation of bovine trophoblast in cloned pregnancyRodrigo da Silva Nunes Barreto 24 August 2015 (has links)
O sucesso da gestação, e nascimento da prole saudável, depende da adequada formação, desenvolvimento e funcionamento da placenta. Entretanto, são observadas altas perdas durante o primeiro terço da gestação de embriões bovinos produzidos por transferência de núcleo de célula somática (TNCS), principalmente causadas por alterações placentárias, decorrentes da incompleta reprogramação epigenética no desenvolvimento embrionário. Normalmente, após a fecundação, o DNA paterno é desmetilado durante as primeiras horas do desenvolvimento, enquanto o DNA materno é desmetilado de forma passiva. Entretanto nos embriões TNCS a desmetilação do DNA é tardia e incompleta, resultando numa alteração do padrão epigenético, principalmente nos níveis de metilação (5mC) e hidroximetilação (5hmC) do DNA e nas histonas. Além disso, na gestação TNCS há expressão precoce das moléculas do complexo de histocompatibilidade principal de classe I (MHC-I), associada ao aumento de infiltrados inflamatórios na placenta e à rejeição imunológica ao feto. O objetivo desse trabalho foi de verificar, na placenta bovina TNCS e controle, os níveis globais de 5mC e 5hmC, e de algumas modificações de histonas importantes na formação do trofectoderma ou por serem modificações clássicas, além de imunolocalizar moléculas de MHC-I. Para tanto foram utilizadas amostras de placentônio TNCS no primeiro (n = 5) e terceiro (n = 6) terço gestacional; e como controle, placentônios com controle no primeiro (n = 6) e terceiro (n = 6). Foram realizadas reações de imunohistoquímica para modificações no DNA (5mC, 5hmC) e nas histonas (H3K4me3, H3K27me3, H3K9ac, H3K9me2/3) e para MHC-I (Qa-2 e IL-A88); além de reações de PCR quantitativo para enzimas responsáveis pelas modificações no DNA (DNMT1, TET1, TET3), para alguns genes relacionados com o desenvolvimento da placenta (PAG9, PHDLA2, SNRPN e TSSC4) e para isoformas de MHC-I (NC1-4 e JSP-1). Houve aumento dos níveis globais de metilação, e diminuição de hidroximetilação, na placenta TNCS durante o primeiro trimestre gestacional. Os níveis de H3K4me3 foram estáveis na placenta controle e crescentes na placenta TNCS, enquanto que a H3K27me3 decresceu na placenta controle e foi estável na placenta TNCS. Na placenta TNCS, aos 60 dias, foram observados os menores níveis globais H3K9ac, porém H3K9me2/3 não diferiram entre as idades e tipos gestacionais estudados. Foi identificado MHC-I no trofoblasto do placentônio bovino nas idades analisadas, com variações de intensidade dependendo da isoforma detectada, além de que a placenta controle e a TNCS apresentam padrões diferentes na expressão de MHC-I. De modo geral, o menores níveis de metilação do DNA encontrados na placenta TNCS aos 60 dias de gestação, indica ser um mecanismo compensatório para ativar a expressão gênica. Visto que a as modificações de histona levam a um estado repressivo da expressão gênica, já que a bivalência entre H3K4me3 e H3K27me3 e os níveis de H3K9ac estão diminuídos. Ainda na placenta TNCS aos 60 dias, há uma alta expressão de MHC-I, levando a resposta imune do sistema materno contra os tecidos fetais. Portanto vários eventos são presentes e parecem contribuir para instabilidade da gestação inicial em clones, coincidindo com a alta taxa de perdas gestacionais nessa fase / Pregnancy success depends of adequate placental formation, development and function. Therefore, the highest loses rates are found during first trimester pregnancies of bovine embryos produced by somatic cell nuclear transfer (NT), majorly by placental alterations, due to incomplete epigenetic reprogramming during embrionary development. Normally, after fecundation, paternal DNA is actively demethylated at first hours of development; where as maternal DNA is passively demethylated. However in NT embryos the DNA demethylation is late and incomplete, resulting in changes of epigenetic patterns, majorly in methylation (5mC), hydroxymethylation (5hmC) and histone levels. Furthermore, in NT pregnancy there is premature expression of class I major histocompatibility complex (MHC-I), associated with inflammatory infiltrates increases and immunological rejection against fetus. The aim of this work was to evaluate global levels of 5mC, 5hmC and some posttranslational histone modifications and MHC-I molecules expression of bovine placenta in NT and control models. For this, NT and control bovine placentome were collected at first (n = 6) and third (n = 6) trimester of pregnancy. Immunohistochemistry reactions were performed to assay DNA methylation (5mC) and (5hmC) and posttranslational histone modifications (H3K4me3, H3K27me3, H3K9ac, H3K9me2/3) and MHC-I molecules (Qa-2 e IL-A88). Quantitative PCR reactions were performed to evaluate the expression of DNA modifications related enzymes (DNMT1, TET1 and TET2), MHC-I classical (JSP-1) and non-classical (NC1-4) isoforms, and imprinted genes expression (SNRPN, TSSC4 and PHDLA2). In the NT placenta there was an increase in the global methylation and decreased hydromethylation level at first trimester. Levels of H3K4me3 were constant at control placenta while increased in NT placenta. For H3K27me3, the levels decreased in control placenta and were stable at NT counterparts. At 60 days of pregnancy in NT placenta, were observed low levels of global H3K9ac, but no differences of H3K9me2/3 levels were found between pregnancy ages or type. We identified MHC-I at bovine placentomal trophoblast in all ages analyzed, with intensity variation of different isoforms. In general, low levels of DNA methylation at day 60 of pregnancy of TNCS placenta, indicates a compensatory mechanism to active genic expression. Since histone modifications, in this period, leads to repressive status, because bivalence of H3K4me3 and H3K27me3 and levels of H3K9ac were diminished. Also at day 60 of pregnancy of TNCS placenta, MHC-I is highly expressed and leads to maternal immune response against fetus tissue. In conclusion, several events are present and apparently contribute to early clone pregnancy instability, coinciding with high pregnancy losses in that phase
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The Interaction Between Sir3 and Sir4 is Dispensable for Silent Chromatin Spreading in Budding YeastGerson, Rosalind J. January 2015 (has links)
In Saccharomyces cerevisiae, telomeric and HM silencing requires the histone deacetylase Sir2 and the chromatin binding proteins Sir3 and Sir4, which interact to form the SIR complex. Silent chromatin formation begins with a nucleation step, followed by spreading of Sir proteins along chromatin. Overexpression of Sir3 extends silent chromatin domains, however the role of Sir protein interactions within silent chromatin extensions remains unknown. Here, we generated the Sir3 mutant, Sir3-4A, which cannot interact with Sir4 but is capable of forming silent chromatin extensions when overexpressed. Within extended silent domains, Sir2 and Sir4 enrichments are similar whether Sir3 or Sir3-4A is overexpressed, suggesting that silent chromatin extensions require Sir4 but not the interaction between Sir3 and Sir4. Tethering Sir3-4A at an HMR silencer cannot nucleate silencing in the absence of Sir3, suggesting that in addition to Sir3 recruitment, the Sir3-Sir4 interaction has at least one other function during silent chromatin nucleation.
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