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1	A biophysical and biochemical characterisation of recombinant AP1 and a structural determination of two binding sites, the TRE and CRE Fulcher, Timothy January 1996 (has links) No description available. 572 DNA binding domain
2	Structural Analysis of Heterodimeric and Homooligomeric Protein Complexes by 4-D Fast NMR Wang, Su January 2014 (has links) <p>A molecular depiction of the assembly, interaction and regulation of protein complexes is essential to the understanding of biological functions of protein complexes. Structural analysis of protein complexes by Nuclear Magnetic Resonance (NMR) has relied heavily on the detection and assignment of intermolecular Nuclear Overhauser Effects (NOEs) that define the interactions of protons at the molecular interface. Intermolecular NOEs have traditionally been detected from 3-D half-filtered NOE experiments by suppressing intramolecular NOEs prior to NOE transfer. However, due to insufficient suppression of undesirable signals and a lack of dispersion in the H dimension, data analysis is complicated by the interference of residual intramolecular NOEs and assignment ambiguity, both of which can lead to distorted or even erroneously packed protein complex structures. Leveraging the recent development of fast NMR technology based on sparse sampling in our lab, we developed a strategy for reliable identification and assignment of intermolecular NOEs using high resolution 4-D NOE difference spectroscopy. Spectral subtraction of individually labeled components from a uniformly labeled protein complex yields an "omit" spectrum containing only intermolecular NOEs with little signal degeneracy. </p><p>The benefit of such a strategy is first demonstrated in structural analysis of a homooligomeric protein complexes, the foldon trimer. We show that intermolecular NOEs collected from the 4-D omit NOE spectrum can be directly utilized for automated structural analysis of the foldon trimer by CYANA, whereas intermolecular NOEs derived from 3-D half-filtered NOE experiments failed to generate a converged structure under the same condition. </p><p>Such a strategy was further demonstrated on a heterodimeric protein complex in translesion sysnthesis (TLS), a DNA damage tolerance pathway. The TLS machinery consists of several translesion DNA polymerases that are recruited to the stalled replication fork in response to monoubiquitinated proliferating cell nuclear antigen (PCNA) in order to bypass DNA lesions encountered during genomic replication. The recruitment and assembly of translesion machinery is heavily dependent on ubiquitin-binding domains, including ubiquitin-binding motifs (UBMs) and ubiquitin-binding zinc fingers (UBZs) that are found in translesion DNA polymerases. Two conserved ubiquitin-binding motifs (UBM1 and UBM2) are found in the Y-family polymerase (Pol) &iota, both of which contribute to ubiquitin-mediated accumulation of Pol &iota during TLS. Although the Pol&iota UBM2-ubiquitin complex has been previous reported by our lab and others, the Pol &iota UBM1-ubiquitin complex has remained a challenge due to significant signal overlap in conventional 3-D NOE spectroscopy. In order to determine the molecular basis for ubiquitin recognition of Pol &iota, we solved the structures of human Pol &iota UBM1 and its complex with ubiquitin by 4-D fast NMR, revealing a signature helix-turn-helix motif that recognizes ubiquitin through an unconventional surface centered at L8 of ubiquitin. Importantly, the use of 4-D omit NOE spectroscopy unambiguously revealed an augmented ubiquitin binding interface that encompasses the C-terminal tail of UBM1.</p><p>4-D omit NOE spectroscopy was also used to study the Fanconi anemia associated protein 20 (FAAP20)-ubiquitin complex within the Fanconi Anemia (FA) complexes required for efficient repair of DNA interstrand crosslinks (ICLs), a process that is mediated by the ubiquitin-binding zinc finger (UBZ) domain of FAAP20. Unexpectedly, we show that the FAAP20-ubiquitin interaction extends beyond the compact UBZ module and is accompanied by transforming the disordered C-terminal tail of FAAP20 into a rigid &beta-loop, with the invariant C-terminal tryptophan (W180 of human FAAP20) emanating toward I44 of ubiquitin for enhanced binding. Accordingly, alanine substitution of the absolutely conserved C-terminal tryptophan residue of FAAP20 abolishes ubiquitin binding and impairs FA core complex-mediated ICL repair <italic>in vivo<italic>.</p><p>Reliable detection and unambiguous assignment of intermolecular NOEs is essential to NMR-based structure determination of protein complexes. The development of 4-D omit NOE spectroscopy in this thesis overcomes many limitations of conventional 3-D half-filtered experiments to allow for reliable detection and unambiguous assignment of intermolecular NOEs of heterodimeric complexes and homooligomeric complexes. These advantages render such a strategy particularly attractive for structural studies of protein complexes by biomolecular NMR.</p> / Dissertation Biochemistry FAAP20 NMR NOE protein complex ubiquitin Ubiquitin-binding domain
3	Characterization of the nuclear import and export signals of the E7 protein of human papillomavirus type 11 McKee, Courtney Holmes January 2011 (has links) Thesis advisor: Junona Moroianu / The E7 protein of low risk HPV11 has been shown to interact with multiple proteins, including pRb, in both the cytoplasm and the nucleus. High risk HPV16 E7 and low risk HPV11 E7 share a novel nuclear import pathway independent of karyopherins but dependent on the GTPase Ran (Angeline, et al., 2003; Knapp, et al., 2009; Piccioli, et al., 2010). We continued to analyze the nucleocytoplasmic transport of HPV11 E7 in vivo through transfection assays in HeLa cells with EGFP-HPV11 E7 wild type and mutant fusion constructs. We found that nuclear localization of HPV11 E7 is mediated by a nuclear localization signal located in the C-terminal domain which contains a unique zinc-binding domain. Mutations of cysteine residues that interfered with zinc-binding clearly disrupted the nuclear localization of the EGFP-11cE7 and EGFP-11E7 mutants. These data suggest that the integrity of the zinc-binding domain is essential for the nuclear localization of HPV11 E7. In addition, we discovered that HPV11 E7 has a leucine-rich C-terminal nuclear export signal (NES) (76IRQLQDLLL84) mediating the nuclear export of HPV11 E7 in a CRM1-dependent manner. / Thesis (BS) — Boston College, 2011. / Submitted to: Boston College. College of Arts and Sciences. / Discipline: Biology Honors Program. / Discipline: Biology. Human papillomavirus E7 zinc-binding domain nuclear import nuclear export
4	Charakterisierung von Punktmutationen in der DNA-Bindedomäne des humanen Transkriptionsfaktors STAT1 / Characterization of point mutation in the DNA-binding domain of the human transcription factor STAT1 Naegeler, Jana Johanne 09 March 2015 (has links) Der Signaltransduktor und Aktivator der Transkription 1 (STAT1) ist ein Mitglied der konservierten Proteinfamilie von zytokinregulierten Transkriptionsfaktoren und spielt bei vielen biologischen Prozessen, wie beispielsweise der Steuerung der Immunantwort und der Zellproliferation, eine entscheidende Rolle. Bei Stimulation der Zellen mit Interferon-gamma (IFN-gamma) phosphorylieren rezeptorassoziierte JAK-Kinasen einen kritischen Tyrosinrest im Carboxyterminus von STAT1. Die Tyrosin-phosphorylierten STAT1-Homodimere akkumulieren daraufhin im Zellkern, wo sie spezifische Bindestellen in den Promotoren von STAT1-abhängigen Zielgenen erkennen. In der vorliegenden Arbeit wurde untersucht, ob drei oberflächenexponierte und konservierte Aminosäurereste in der DNA-Bindedomäne (Lys 359, Lys 361 und Asp 367) an der Weiterleitung der Signalintensität beteiligt sind. Zu diesem Zweck führte ich einen Mutageneseansatz durch und substituierte die drei Aminosäurerreste zu Alaninen, doch keiner der drei erhaltenen Punktmutanten zeigte eine gegenüber dem Wildtyp-Molekül geänderte Kinetik der Tyrosin-Phosphorylierung, der induzierbaren Kernakkumulation sowie der Dissoziation von hochaffinen DNA-Bindestellen. Auch blieben die transkriptionelle Aktivierung eines Reportergenkonstrukts und die Expression von sämtlichen der untersuchten IFN-gamma-abhängigen endogenen Zielgene durch die Mutationen unverändert. Zusammendfassend fand ich keine Unterschiede im detektier-baren Verhalten der Mutanten gegenüber dem Wildtyp-Molekül. Doch kann nicht ausgeschlossen werden, dass sich Änderungen in den hier nicht erfassten nicht-kanonischen STAT1-Funktionen ergeben könnten, die kausal für die Homologie dieser Reste verantwortlich sind. 610 STAT1 Bindedomäne STAT1 binding domain Medizin (PPN619874732) Zahnmedizin
5	Site-directed mutagenesis of beta tubulin's putative GTP-binding domain Farr, George William January 1993 (has links) No description available. Biology, Cell GTP-binding domain Mutagenesis, site-directed
6	Étude systémique des cibles génomiques de la methyl-CpG binding domain protein 2 (MBD2), un répresseur transcriptionnel dépendant de la méthylation de l'ADN : évolution de la distribution de MBD2 dans un modèle syngénique de progression tumorale mammaire / The Methyl-CpG Binding Domain protein 2 (MBD2), a DNA methylation-dependent transcriptional repressor : identification and caracterization of MBD2 targets by genome-wide approach Perriaud, Laury 03 November 2010 (has links) Les protéines à « Methyl-CpG-binding domain » (MBD) jouent un rôle important dans l’interprétationde la méthylation de l’ADN conduisant à la répression transcriptionnelle via le recrutement decomplexes remodelant la chromatine. Dans les cancers, MBD2 jouerait un rôle essentiel dans la perted’expression des gènes hyperméthylés. Ainsi, MBD2 serait une cible potentielle pour rétablir, enpartie au moins, leur expression. Caractériser, à l’échelle du génome, la distribution de MBD2 et sesconséquences sur la répression transcriptionnelle au cours de la cancérogenèse est donc une étapeincontournable. (1) L’impact sur l’expression génique de l’inhibition de MBD2 par interférence àl’ARN, a été étudié en utilisant des puces, dans des cellules normales MRC5. La perte de MBD2n’induit pas de surexpression génique globale et la densité en CpG des promoteurs méthylés sembleêtre une composante importante dans la force de répression par MBD2. (2) Les profils de méthylationde l’ADN, de liaisons de MBD2 et de l’ARN polymérase II dans les cellules HeLa ont été analysés parChIP-on-chip avec des puces promoteurs. Ces mêmes approches couplées à l’analyse de l’acétylationdes histones H3 ont été réalisées dans un modèle cellulaire syngénique de progression tumoralemammaire humain. Dans les modèles étudiés, une forte proportion de gènes silencieux et méthylés estliée par MBD2. Les comparaisons entre cellules immortalisées et transformées ne montrent pas dechangements majeurs de la méthylation de l’ADN ou de la répression transcriptionnelle, par contreune redistribution de MBD2 parmi ces sites est observée, suggérant une redondance entre les protéinesliant l’ADN méthylé. / The Methyl-CpG-Binding Domain (MBD) proteins represent key molecules in the interpretation ofDNA methylation signals leading to gene silencing through recruitment of chromatin remodelingcomplexes. In cancer, a member of this protein family, MBD2, seems to play an important role in theloss of expression of aberrantly methylated genes. Thus, MBD2 may be a potential target toreestablish their expression. Mapping of MBD2 binding sites and the relationship between MBD2binding and transcriptional activity was, therefore, a crucial step. (1) We investigated the impact ofMBD2 inhibition by RNA interference on gene expression, using microarray analysis, in a normalhuman fibroblastic cell line, MRC-5. MBD2 depletion did not induce global gene overexpression andCpG density of the methylated promoters seems to be an important parameter in the strength of thetranscriptional repression mediated by MBD2. (2) Global profiling for different layers of epigeneticmodifications (DNA methylation, MBD2 association) and RNA polymerase II binding sites in HeLacells was analyzed by a ChIP-chip method using human promoter arrays. This approach, combinedwith an analysis of H3 histone acetylation patterns, was performed in a syngenic model of breastcancer progression. In the models analyzed MBD2 appeared to be a true methylation-dependenttranscriptional repressor. Furthermore, MBD2 binds to a high proportion of methylated silent genes.Comparisons between immortalized and transformed cells did not indicate major changes of DNAmethylation or gene silencing, while a redistribution of MBD2 among these sites was observed,suggesting a redundancy between methylated binding proteins. Epigénétque Méthylation de l’ADN Methyl-CpG-binding domain (MBD) Modification de la chromatine Epigenetic DNA methylation Chromatin modifications
7	Glycoprotéines d'enveloppes (Env) des gamma- et delta-rétrovirus et leurs récepteurs : recherche chez les mammifères de nouveaux récepteurs d'Env associés au métabolisme cellulaire et d'Env endogènes apparentées / Gamma- and delta-retroviral envelope glycoproteins (Envs) and their receptors : identification of new Env receptors associated to cell metabolism and identification of related endogenous Env with receptor-binding potentals Ivanova, Svilena 19 November 2015 (has links) Couverture)Les rétrovirus sont des virus enveloppés à ARN simple brin omniprésents dans le monde animal et sources de nombreuses pathologies. Les rétrovirus de vertébrés comprennent sept genres dont les gamma et deltarétrovirus qui sont l’objet de ces travaux. Les rétrovirus dits endogènes (ERV), par opposition à leurs homologues infectieux exogènes, sont présents dans les cellules germinales et font partie intégrante du patrimoine génétique, avec transmission mendélienne. Au cours de l'évolution, les ERV ont fait l'objet de mutations, rendant défectives la plupart des copies dans les génomes de vertébrés, avec quelques exceptions notoires. De fait, certaines copies maintiennent de larges cadres de lecture suite à une pression de sélection positive.Rétrovirus exogènes et ERV partagent une organisation génétique similaire. Leurs glycoprotéines d’enveloppe (Env), dont une des propriétés est de lier un récepteur cellulaire, comprennent une composante de surface (SU) associée à une partie transmembranaire (TM). La SU des Env γ et -rétrovirales porte un module RBD (Receptor-Binding Domain) qui lie un récepteur appartenant à la famille SLC (Solute Carriers) des transporteurs de nutriments. Les SLC présents à la surface cellulaire conditionnent le métabolisme des cellules. Afin de pallier l'absence d'anticorps fiables reconnaissant les parties extracellulaires (exofaciales) des SLC, le laboratoire a dérivé des RBD solubles comme ligands des SLC, permettant de suivre leur expression à la surface cellulaire et ainsi, évaluer le métabolisme cellulaire.Parmi les ERV, certaines env partiellement ou entièrement conservées jouent un rôle physiologique essentiel dans les organismes qui les portent. Une hypothèse de mon laboratoire d’accueil est l’existence de RBD endogènes de mammifères capables de moduler le métabolisme cellulaire de leurs hôtes. Dans ce contexte, mes travaux sont articulés autour de deux axes : (i) identifier et produire de nouveaux RBD dérivés des ERV et (ii) identifier de nouveaux transporteurs de type SLC reconnus par des RBD issus de rétrovirus exogènes et ERV de mammifères. Nous avons identifié et caractérisé deux nouveaux RBD humains endogènes (HERV-41 et HERV-89), entrés et conservés chez les primates de l’Ancien Monde il y a environ 35 millions d’années. Nous avons caractérisé leurs séquences PBS (Primer Binding Site), amorces putatives de la réplication rétrovirale, comme étant complémentaires de l’ARNtLeu ou ARNtArg pour HERV-89, et de l'ARNtGlu pour HERV-41. Les séquences env les plus proches dans le génome humain présentent respectivement 38% et 69% d'identité, indiquant l'appartenance de HERV-89 à deux nouvelles familles d'Env. Nous avons pu produire le RBD soluble de HERV-89, montrer que son récepteur est distinct de l'Env HERV ayant la séquence la plus homologue, et étudier sa distribution tissulaire. Le RBD HERV-89 lie un récepteur sur de nombreuses cellules souches et lignées cellulaires établies et nous avons montré par immunohistochimie que le récepteur est exprimé de manière différentielle dans les tissus humains sains et tumoraux. Parallèlement, nous avons dérivé une banque d'expression de 170 SLC que nous avons utilisée pour le criblage à haut-débit de récepteurs des Env gamma et deltarétrovirales. Cette banque nous a permis d'identifier le récepteur, longtemps recherché, de l’Env du virus de la leucémie bovine (BLV). De plus, en utilisant la transfection d'une banque d’expression d’ADNc dans des cellules de hamster, nous avons aussi identifié le récepteur du virus endogène félin ERV-DC14/FeLV-D comme étant le transporteur de cuivre et de cisplatine CTR1/SLC31A1.L’identification du récepteur de BLV pourrait notamment aider dans la lutte contre la transmission du virus et les pathologies associées qui affectent environ 5% du bétail infecté. De plus, les BLV-RBD et DC14-RBD constituent respectivement de nouveaux marqueurs et modulateurs potentiels du métabolisme, dont celui du cuivre / Retroviruses are enveloped, single-stranded RNA viruses, that are omnipresent in animals and the causal agents of a large array of pathologies. Vertebrate retroviruses are divided into seven genera, including the γ and -retroviral groups, which we study particularly. Endogenous retroviruses (ERV), as opposed to exogenous infectious viruses, are present in germline cells and as such are bona fide components of the host genome, with Mendelian transmission. Most ERV have been inactivated by purifying mutations during evolution, although a few copies have been subjected to positive selection pressure with conserved open reading frames (ORFs).Exogenous viruses and ERV that belong to gamma and deltaretroviruses share similar genetic organization and their envelope glycoproteins (Env) comprises a transmembrane (TM) and a surface (SU) component, which binds a specific receptor on the host cell membrane. The SU contains a receptor-binding domain (RBD), responsible for receptor recognition, while TM engages membrane fusion and harbors an immunosuppressive domain. Noticeably, some ERVs have maintained entire or partial ORFs in env, which have been shown, in certain cases, to have essential physiological functions.Another common feature of gamma and deltaretroviral Env is the nature of their receptors, which, when identified, all belong to the solute carrier family of nutrient transporters (SLCs). The laboratory derived soluble RBDs from complete Env that can bind cognate receptors and be used to monitor SLC receptor expression at the cell surface. This important property of RBDs overcomes the notorious lack of reliable anti-SLC exofacial antibodies and provides a new way to evaluate, or even modulate, cell metabolism.Our laboratory postulates that some endogenous RBD-coding genes have been positively selected in their hosts for properties linked to binding SLCs and modulating host cell metabolism. In this context, the aim of my work was to: (i) search for new natural endogenous RBDs and (ii) characterize SLC transporters recognized by RBDs derived from ERVs or exogenous infectious mammalian retroviruses.Here, we describe the identification of two novel human endogenous RBDs (HERV-41 and HERV-89), which each harbor a significant ORF. We estimated that both RBDs have been introduced into Old World primate genomes 35 MYA ago, after the separation with New World monkeys. HERV-89 and HERV-41 are included within retroviral elements that comprise potential primer binding sites (PBS) complementary to tRNALeu or tRNAArg, for HERV-89, and tRNAGlu, for HERV-41. The envs of HERV-89 and HERV-41 do not share more than 38% and 69% amino acid identity with the closest known HERVs, respectively, which indicates that they belong to two new Env families. We derived a soluble HERV-89 RBD and monitored its receptor cell and tissue distribution. Using the ligand by flow cytometry, we observed that a HERV-89 receptor is expressed in a large panel of established cell lines and stem cells. Immunohistochemistry on 94 healthy and tumor human tissue samples showed that HERV-89 receptor is largely distributed, with distinct expression patterns in healthy and tumor tissues. In parallel, we derived a 170 gene-containing SLC expression library for high throughput screening of SLC/ligand interactions. Using this partial human SLC library, we identified the long-sought receptor for bovine leukemia virus (BLV). Moreover, transfection of a cDNA library expression into hamster cells, led us to identify CTR1/SLC31A1, the copper and cisplatin transporter, as the receptor for the feline ERV-DC14/FeLV-D.As a ligand for the BLV receptor, BLV-RBD may be used to help controlling BLV transmission and prevent associated pathologies that affect 5% of infected cattle. Also, BLV-RBD and DC14-RBD can now be used as metabolic markers and modulators of their SLC cognate receptors, including copper metabolism, in the case of DC14-RBD. Rétrovirus Herv Envelope Receptor Binding Domain Récepteurs de type SLC Virus de la leucémie bovine Métabolisme Retrovirus Herv Receptor Binding Domain SLC receptors Bovine leukemia virus Metabolism
8	INSIGHTS INTO EXPRESSION, CELLULAR LOCALIZATION, AND REGULATION OF SUPERNATANT PROTEIN FACTOR, A PUTATIVE REGULATOR OF CHOLESTEROL BIOSYNTHESIS Stolarczyk, Elzbieta Ilona 01 January 2009 (has links) SPF (Supernatant Protein Factor) is a cytosolic protein that stimulates at least two enzymes in the cholesterol biosynthetic pathway: squalene monooxygenase and HMGCoA reductase. The mechanism of action has not been established but may be related to lipid transfer between intracellular membranes. There are three human genes for SPF: SEC14L2 (SPF1), SEC14L3 (SPF2) and SEC14L4 (SPF3). The present study differentiates these closely related genes by evaluating their tissue-specific and relative expression levels. SPF1 mRNA was found to be most abundant in liver, mammary gland and stomach. SPF2 showed negligible expression in all tissues tested; SPF3 expression pattern was similar to that of SPF1, but at 10-50-fold lower levels than SPF1. A cDNA to SPF3 was cloned and, upon transfection into rat hepatoma cells, was shown to increase cholesterol synthesis by approximately 50%, similar to that obtained with SPF1. However, in contrast to SPF1, SPF3 did not stimulate squalene monooxygenase activity in microsomal preparations, suggesting that it acts primarily through activation of HMG-CoA reductase. SPF possesses a lipid binding domain (Sec14) and a Golgi dynamics domain (GOLD). SPF resides in the cytosol and requires phosphorylation and the presence of Golgi in order to stimulate cholesterol synthesis. To determine if SPF associates with specific subcellular structures, cellular immunofluorescence studies were carried out. A phosphorylationdefective mutant, a protein lacking the GOLD domain, and the effect of protein kinase A-mediated phosphorylation of endogenous SPF were examined. No change in the subcellular location of SPF could be detected with either the phosphorylation mutant or the native SPF after protein kinase A activation. However, removal of the GOLD domain resulted in a protein that co-localized with large vesicular structures around nucleus. Studies with rat hepatoma cells showed that the expression of the two rat SPF genes is upregulated in response to serum deprivation, and is potentiated by removal of glucose. Lipid/cholesterol availability was demonstrated to be at least one of the serum components that affected SPF transcript levels. The oxysterol receptor LXR was shown not to be involved in SPF gene regulation, implicating SREBP and/or PPARα as the principal regulators of SPF gene transcription. Pharmacology Pharmacy and Pharmaceutical Sciences
9	Étude systémique des cibles génomiques de la methyl-CpG binding domain protein 2 (MBD2), un répresseur transcriptionnel dépendant de la méthylation de l'ADN : évolution de la distribution de MBD2 dans un modèle syngénique de progression tumorale mammaire Perriaud, Laury 03 November 2010 (has links) (PDF) Les protéines à " Methyl-CpG-binding domain " (MBD) jouent un rôle important dans l'interprétationde la méthylation de l'ADN conduisant à la répression transcriptionnelle via le recrutement decomplexes remodelant la chromatine. Dans les cancers, MBD2 jouerait un rôle essentiel dans la perted'expression des gènes hyperméthylés. Ainsi, MBD2 serait une cible potentielle pour rétablir, enpartie au moins, leur expression. Caractériser, à l'échelle du génome, la distribution de MBD2 et sesconséquences sur la répression transcriptionnelle au cours de la cancérogenèse est donc une étapeincontournable. (1) L'impact sur l'expression génique de l'inhibition de MBD2 par interférence àl'ARN, a été étudié en utilisant des puces, dans des cellules normales MRC5. La perte de MBD2n'induit pas de surexpression génique globale et la densité en CpG des promoteurs méthylés sembleêtre une composante importante dans la force de répression par MBD2. (2) Les profils de méthylationde l'ADN, de liaisons de MBD2 et de l'ARN polymérase II dans les cellules HeLa ont été analysés parChIP-on-chip avec des puces promoteurs. Ces mêmes approches couplées à l'analyse de l'acétylationdes histones H3 ont été réalisées dans un modèle cellulaire syngénique de progression tumoralemammaire humain. Dans les modèles étudiés, une forte proportion de gènes silencieux et méthylés estliée par MBD2. Les comparaisons entre cellules immortalisées et transformées ne montrent pas dechangements majeurs de la méthylation de l'ADN ou de la répression transcriptionnelle, par contreune redistribution de MBD2 parmi ces sites est observée, suggérant une redondance entre les protéinesliant l'ADN méthylé. Epigénétque Méthylation de l'ADN Methyl-CpG-binding domain (MBD) Modification de la chromatine
10	Regulation of Telomerase by DNA and Protein Interactions Sealey, David Charles Fitzgerald 01 September 2010 (has links) In most eukaryotes, chromosomes ends are protected by telomeres which are formed by repetitive DNA, specialized binding proteins, and higher order structures. Telomeres become shorter following replication due to the positioning and degradation of terminal RNA primers, as well as resection by nucleases. Extensive telomere shortening over many cell cycles elicits a DNA damage checkpoint that culminates in senescence or, in the absence of tumor suppressor pathways, apoptosis. These effects block the expansion of cells with unstable genomes, but can also precipitate disease in tissues that rely on regeneration for function. In many unicellular eukaryotes and proliferative human cells including cancer cells, telomeres can be maintained by the telomerase reverse transcriptase (TERT) and its associated RNA (TR). The elongation of telomeric DNA by telomerase depends on the telomerase essential N-terminal (TEN) and C terminal reverse transcriptase (RT) domains. We found that human TEN interacted with single-stranded telomeric DNA and restored function, in trans, to an hTERT mutant lacking hTEN. Telomerase required hTEN residues for activity, telomere maintenance, and extension of cellular replicative lifespan. Two inactive hTERT variants bearing mutations in TEN and RT domains, respectively, cooperated to regenerate telomerase activity in vitro. hTEN interacted with several regions of hTERT suggesting that dimerization may occur via TEN-TERT interactions. The in vivo defect of certain hTEN mutants may involve an inability to interact with factors that recruit the enzyme to the telomere and/or stimulate activity. Human homologs of the S. cerevisiae recruitment factor Est1 interacted with telomerase in a species-specific manner. The TPR domain of hEST1A interacted with the N-terminus of hTERT. The TPR domain of ScEst1 was required for telomere length maintenance by telomerase, and, paradoxically, also negatively regulated telomere length. In preliminary experiments, hTERT interacted with hPOT1/hTPP1. This interaction may stimulate the elongation of telomeres by telomerase. The DNA and protein interactions described herein expand our knowledge of telomerase and present new targets for the manipulation of telomerase function in human disease. telomeres telomerase senescence DNA binding domain processivity reverse transcriptase 0307 0379

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