898 resultados para AND replication
Resumo:
光栅复制是降低光栅制造成本,提高产量的一条有效途径。研究了利用紫外压印技术复制微结构光栅的方法。使用玻璃基底矩形浮雕结构的微结构光栅作为母光栅,给出了利用聚二甲基硅氧烷(PDMS)制作光栅模具和在光敏聚合物材料上复制微结构光栅的详细过程。经过优化工艺条件,成功地复制了一系列不同周期和开口比的微结构光栅,测试了复制光栅和母光栅的衍射图像和0级与±1级的衍射强度,结果表明,复制光栅和母光栅的衍射图像与光强分布基本一致。
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In this work we wanted to study the mechanism of E2F2-mediated repression. Our hypothesis is that E2F2 activates the expression of one or more E2F members of the “repressor” subset of the family through the E2F motifs present in their promoters, and those repressor E2F(s) would subsequently repress the target promoters. To address this hypothesis, we focused on E2F7. E2F7 is a repressor that lacks the Rb binding domain, and associates with DNA through E2F binding sites (de Bruin et al., 2003). Furthermore, E2F7 itself is also regulated by E2F motifs on its own promoter, and it has been shown to repress DNA metabolism and replication genes in late S-phase (de Bruin et al., 2003; Westendorp et al., 2012). E2F7, together with E2F8 has been found to form heterodimers, being critical on cell proliferation and development, and both seem to have similar functions (Li et al., 2008). Preliminary results from Zubiaga’s group have indicated that E2F2 activates E2F7 transcription in U2OS cells, suggesting that E2F2’s repressor function could be mediated by E2F7. For this purpose, we focused on studying E2F7’s role on the target genes previously known to be repressed by E2F2: Chk1 and Mcm5. The specific aims for this work were the following: - Confirm that E2F2 induces E2F7 in HEK-293T cells - Assess whether E2F7 acts as a transcriptional repressor on E2F sites - Evaluate the role of E2F7 on E2F2-mediated transcriptional repression of Chk1 and Mcm5.
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A novel L-amino acid oxidase, named TSV-LAO, has been purified and cloned from the snake Trimeresurus stejnegeri. Fifty percentage cytotoxic concentrations (CC50) of TSV-LAO on C8166 cells were 24 and 390 nM in the absence or presence of catalase (400nM), respectively. However, at concentrations that showed little effect on cell viability, TSV-LAO displayed dose dependent inhibition on HIV-1 infection and replication. The antiviral selectivity indexes (CC50/EC50) were 16 and 6, respectively, corresponding to the measurements of syncytium formation and HIV-1 p24 antigen expression. Interestingly, the presence of catalase resulted in an increase of its antiviral selectivity to 52 and 38. Under the same conditions, no anti-HIV-1 activity was observed by exogenous addition of H2O2. The complete amino acid sequence of TSV-LAO, as deduced from its cDNA, exhibits a high degree of sequence identity with other snake venom LAOs. (C) 2003 Elsevier Inc. All rights reserved.
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A novel protein, named BAS-AH, was purified and characterized from the skin of the toad Bufo andrewsi. BAS-AH is a single chain protein and the apparent molecular weight is about 63 kDa as judged by SDS-PAGE. BAS-AH was determined to bind heme (0.89 mol heme/mol protein) as determined by pyridine haemochrome analysis. Fifty percentage cytotoxic concentration (CC50) of BAS-AH on C8166 cells was 9.5 mu M. However, at concentrations that showed little effect oil cell viability, BAS-AH displayed dose dependent inhibition oil HIV-1 infection and replication. The antiviral selectivity indexes corresponding to the measurements of syncytium formation and HIV-1 p24 (CC50/EC50) were 14.4 and 11.4, respectively, corresponding to the . BAS-AH also showed an inhibitory effect on the activity of recombinant HIV-1 reverse transcriptase (IC50 = 1.32 mu M). The N-terminal sequence of BAS-AH was determined to be NAKXKADVIGKISILLGQDNLSNIVAM, which exhibited little identity with other known anti-HIV-1 proteins. BAS-AH is devoid of antibacterial, protcolytic, trypsin inhibitory activity, (L)-amino acid oxidase activity and catalase activity. (c) 2005 Elsevier Ltd. All rights reserved.
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Scutellarin was purified from the plant Erigeron breuiscapus (Vant.) Hand.-Mazz. The activity against 3 strains of human immunodeficiency virus (HIV) was determined in vitro in this study. These were laboratory-derived virus (HIV-I-IIIB), drug-resistant virus (HIV-I-74V), and low-passage clinical isolated virus (HIV-1(KM018)). From syncytia inhibition study, the EC50 of scutellarin against HIV-I-IIB direct infection in C8166 cells was 26 mu M with a therapeutic index of 36. When the mode of infection changed from acute infection to cell-to-cell infection, this compound became even more potent and the EC50 reduced to 15 mu M. This suggested that cell fusion might be affected by this compound. By comparing the inhibitory effects on p24 antigen, scutellarin was also found to be active against HIV-1(74V) (EC50 253 mu M) and HIV-1(KM018) (EC50 136 mu M) infection with significant difference in potency. The mechanism of its action was also explored in this study. At a concentration of 433 mu M, scutellarin inhibited 48% of the cell free recombinant HIV-1 RT activity. It also caused 82% inhibition of HIV-1 particle attachment and 45% inhibition of fusion at the concentrations of 54 mu M. In summary, scutellarin was found to inhibit several strains of HIV-1 replication with different potencies. It appeared to inhibit HIV-1 RT activity, HIV-1 particle attachment and cell fusion. These are essential activities for viral transmission and replication. (c) 2005 Elsevier Inc. All rights reserved.
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HR212, a recombinant protein expressed in Escherichia coli, has been previously reported to inhibit HIV-1 membrane fusion at low nanomolar level. Here we report that HR212 is effective in blocking laboratory strain HIV-1IIIB entry and replication with EC50 values of 3.92±0.62 and 6.59±1.74 nM, respectively, and inhibiting infection by clinic isolate HIV-1KM018 with EC50 values of 44.44±10.20 nM, as well as suppressing HIV-1- induced cytopathic effect with an EC50 value of 3.04±1.20 nM. It also inhibited HIV-2ROD and HIV-2CBL-20 entry and replication in the μM range. Notably, HR212 was highly effective against T20-resistant strains with EC50 values ranging from 5.09 to 7.75 nM. Unlike T20, HR212 showed stability sufficient to inhibit syncytia formation in a time-of-addition assay, and was insensitive to proteinase K digestion. These results suggest that HR212 has great potential to be further developed as novel HIV-1 fusion inhibitor for treatment of HIV/ AIDS patients, particularly for those infected by T20-resistant variants.
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It is now possible to use powerful general purpose computer architectures to support post-production of both video and multimedia projects. By devising a suitable portable software architecture and using high-speed networking in an appropriate manner, a system has been constructed where editors are no longer tied to a specific location. New types of production, such as multi-threaded interactive video, are supported. Editors may also work remotely where very high speed network connection is not currently provided. An object-oriented database is used for the comprehensive cataloging of material and to support automatic audio/video object migration and replication. Copyright © 1997 by the Society of Motion Picture and Television Engineers, Inc.
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This study examined the effect of exogenous benzo[ a ]pyrene (BaP), an important constituent of cigarette smoke, on cultured bovine retinal pigment epithelial (RPE) cells. Evidence is presented for its metabolic conversion into benzo[ a ]pyrene diol epoxide (BPDE) and the consequent formation of potentially cytotoxic nucleobase adducts in DNA. Cultured RPE cells were treated with BaP at concentrations in the range of 0–100 µm. The presence of BaP was found to cause inhibition of cell growth and replication. BaP induced the expression of a phase I drug metabolizing enzyme which was identified as cytochrome P450 1A1 (CYP 1A1) by RT–PCR and by Western blotting. Coincident with the increased expression of CYP 1A1, covalent adducts between the mutagenic metabolite BPDE and DNA could be detected within RPE cells by immunocytochemical staining. Additional support for their formation was afforded by nuclease P1 enhanced 32P-postlabelling assays on cellular DNA. Single-cell gel electrophoresis (comet) assays showed that exposure of RPE cells to BaP rendered them markedly more susceptible to DNA damage induced by broad band UVB or blue light laser irradiation. In the case of UVB, this is consistent with the photosensitization of DNA cleavage by nucleobase adducts of BPDE. Collectively, these findings imply that BaP has a significant impact on RPE cell pathophysiology and suggest mechanisms whereby exposure to cigarette smoke might cause RPE dysfunction and cell death, thus possibly contributing to degenerative disorders of the retina.
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Abdominal aortic aneurysm (AAA) is a common cause of morbidity and mortality and has a significant heritability. We carried out a genome-wide association discovery study of 1866 patients with AAA and 5435 controls and replication of promising signals (lead SNP with a p value < 1 × 10 -5) in 2871 additional cases and 32,687 controls and performed further follow-up in 1491 AAA and 11,060 controls. In the discovery study, nine loci demonstrated association with AAA (p < 1 × 10 -5). In the replication sample, the lead SNP at one of these loci, rs1466535, located within intron 1 of low-density-lipoprotein receptor-related protein 1 (LRP1) demonstrated significant association (p = 0.0042). We confirmed the association of rs1466535 and AAA in our follow-up study (p = 0.035). In a combined analysis (6228 AAA and 49182 controls), rs1466535 had a consistent effect size and direction in all sample sets (combined p = 4.52 × 10 -10, odds ratio 1.15 [1.10-1.21]). No associations were seen for either rs1466535 or the 12q13.3 locus in independent association studies of coronary artery disease, blood pressure, diabetes, or hyperlipidaemia, suggesting that this locus is specific to AAA. Gene-expression studies demonstrated a trend toward increased LRP1 expression for the rs1466535 CC genotype in arterial tissues; there was a significant (p = 0.029) 1.19-fold (1.04-1.36) increase in LRP1 expression in CC homozygotes compared to TT homozygotes in aortic adventitia. Functional studies demonstrated that rs1466535 might alter a SREBP-1 binding site and influence enhancer activity at the locus. In conclusion, this study has identified a biologically plausible genetic variant associated specifically with AAA, and we suggest that this variant has a possible functional role in LRP1 expression.
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A recent report showed significant associations between several SNPs in a previously unknown EST cluster with schizophrenia. (1). The cluster was identified as the human dystrobrevin binding protein 1 gene (DTNBP1) by sequence database comparisons and homology with mouse DTNBP1. (2). However, the linkage disequilibrium (LD) among the SNPs in DTNBP1 as well as the pattern of significant SNP-schizophrenia association was complex. This raised several questions such as the number of susceptibility alleles that may be involved and the size of the region where the actual disease mutation(s) could be located. To address these questions, we performed different single-marker tests on the 12 previously studied and 2 new SNPs in DTNBP1 that were re-scored using an improved procedure, and performed a variety of haplotype analyses. The sample consisted of 268 Irish multiplex families selected for high density of schizophrenia. Results suggested a simple structure where the LD in the target region could be explained by 6 haplotypes that together accounted for 96% of haplotype diversity in the whole sample. From these six, a single high-risk haplotype was identified that showed a significant association with schizophrenia and explained the pattern of significant findings in the analyses with individual markers. This haplotype was 30 kb long, had a large effect, could be measured with two tag SNPs only, had a frequency of 6% in our sample, seemed to be of relatively recent origin in evolutionary terms, and was equally distributed over Ireland. Implications of these findings for follow-up and replication studies are discussed.
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Anorexia nervosa (AN) is a complex and heritable eating disorder characterized by dangerously low body weight. Neither candidate gene studies nor an initial genome-wide association study (GWAS) have yielded significant and replicated results. We performed a GWAS in 2907 cases with AN from 14 countries (15 sites) and 14 860 ancestrally matched controls as part of the Genetic Consortium for AN (GCAN) and the Wellcome Trust Case Control Consortium 3 (WTCCC3). Individual association analyses were conducted in each stratum and meta-analyzed across all 15 discovery data sets. Seventy-six (72 independent) single nucleotide polymorphisms were taken forward for in silico (two data sets) or de novo (13 data sets) replication genotyping in 2677 independent AN cases and 8629 European ancestry controls along with 458 AN cases and 421 controls from Japan. The final global meta-analysis across discovery and replication data sets comprised 5551 AN cases and 21 080 controls. AN subtype analyses (1606 AN restricting; 1445 AN binge-purge) were performed. No findings reached genome-wide significance. Two intronic variants were suggestively associated: rs9839776 (P=3.01 × 10(-7)) in SOX2OT and rs17030795 (P=5.84 × 10(-6)) in PPP3CA. Two additional signals were specific to Europeans: rs1523921 (P=5.76 × 10(-)(6)) between CUL3 and FAM124B and rs1886797 (P=8.05 × 10(-)(6)) near SPATA13. Comparing discovery with replication results, 76% of the effects were in the same direction, an observation highly unlikely to be due to chance (P=4 × 10(-6)), strongly suggesting that true findings exist but our sample, the largest yet reported, was underpowered for their detection. The accrual of large genotyped AN case-control samples should be an immediate priority for the field.
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Infectious diseases are a leading cause of global human mortality. The use of antimicrobials remains the most common strategy for treatment. However, the isolation of pathogens resistant to virtually all antimicrobials makes it urgent to develop effective therapeutics based on new targets. Here we review a new drug discovery paradigm focusing on identifying and targeting host factors important for infection as well as pathogen determinants involved in disease progression. We summarize innovative strategies which by combining bioinformatics with transcriptomics and chemical genetics have already identified host factors essential for pathogen entry, survival and replication. We describe how the discovery of RNA interference which allows loss-of-function studies has facilitated functional genomic studies in human cells. It is expected that these studies will identify targets to be used as host-directed drug therapy which, together with antimicrobials targeting microbial virulence factors, will efficiently eliminate the invading pathogen.
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La stabilité génomique, qui est essentielle à la vie, est possible grâce à la réplication et la réparation de l’ADN. Une des enzymes responsables de la réplication et de la réparation de l’ADN est la ribonucleotide reductase (RNR), qui est retrouvée chez la levure et chez l’humain. Cette enzyme catalyse la formation de déoxyribonucléotides et maintien le pool de dNTP requis pour la réparation et la réplication de l’ADN. L’enzyme RNR est un tétramère α2β2 constitué d’une grande (R1, α2) et d’une petite (R2, β2) sous-unité. Chez S. cerevisiae, les gènes RNR1 et RNR3 encodent la sous-unité α2 (R1). L’activité catalytique de RNR dépend d’une interaction avec le fer et de la formation d’un complexe entre R1 et R2. L’expression de toutes les sous-unités est inductible par les dommages causés à l’ADN. Dans cette étude, nous démontrons que des cellules qui n’expriment pas une des sous-unités, Rnr4, du complexe RNR sont sensibles à divers agents endommageant l’ADN, tels que le méthyl méthane sulfonate, la bléomycine, le péroxyde d’hydrogène et les rayons ultraviolets (UVC 254 nm). Au contraire, le mutant est résistant au 4-nitroquinoline-1- oxide (4-NQO), un composé qui engendre des lésions encombrantes. Par conséquent, le mutant rnr4Δ démontre une réduction marquée en mutations induites par le 4-NQO comparativement à la souche parentale. Nous voulions identifier la voie de réparation de l’ADN qui conférait cette résistance au 4-NQO ainsi que les protéines impliquées. Les voies BER, NER et MMR n’ont pas aboli la résistance au 4-NQO de la souche rnr4Δ. La protéine recombinante Rad51 ne joue pas un rôle critique dans la réparation de l’ADN et dans la résistance au 4-NQO. La délétion du gène REV3, qui encode une polymérase de contournement, impliquée dans la réparation post-réplication, a partiellement aboli la résistance au 4-NQO dans rnr4Δ. Ces résultats suggèrent que la polymérase Rev3 et possiblement d’autres polymérases translésion (Rev1, Rev7, Rad30) pourraient être impliquées dans la réparation de lésions encombrantes dans l’ADN dans des conditions de carence en dNTP. La réparation de l’ADN, un mécanisme complexe chez la levure, implique une vaste gamme de protéines, dont certaines encore inconnues. Nos résultats indiquent qu’il y aurait plus qu’une protéine impliquée dans la résistance au 4-NQO. Des investigations plus approfondies seront nécessaires afin de comprendre la recombinaison et la réparation post-réplication.
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La réparation par excision de nucléotides (NER) est une voie critique chez l'homme pour enlever des lésions qui déforment l’hélice d'ADN et qui bloquent à la fois la réplication et la transcription. Parmi ces lésions, il y a les dimères cyclobutyliques de pyrimidines (CPDs) et les adduits pyrimidine (6-4) pyrimidone (6-4PPs) induient par les rayons ultraviolets. L'importance physiologique de la NER est mise en évidence par l’existence de la maladie Xeroderma pigmentosum (XP), causée par des mutations affectant des gènes impliqués dans cette voie de réparation. Les personnes atteintes sont caractérisées par une photosensibilité extrême et une forte prédisposition à développer des tumeurs cutanées (plus de 1000 fois). Les patients atteints du type variant de la maladie Xeroderma pigmentosum (XPV), apparemment compétents en réparation, portent plutôt des mutations dans le gène codant pour l'ADN polymérase η (polη). Polη est une ADN polymérase translésionnelle capable de contourner avec une grande fidélité certaines lésions telles que les CPDs, qui autrement bloquent les polymérases réplicatives. Ainsi, la polη prévient la formation de mutations et permet la reprise de la synthèse d'ADN. L'objectif principal de cette thèse est d'évaluer le rôle potentiel de voies de signalisation majeures dans la régulation de la NER, dont celles régulées par la kinase ATR (Ataxia Télangiectasia and Rad3-related kinase). Suite à l'irradiation UV, ATR est rapidement activée et phosphoryle des centaines de protéines qui régulent les points de contrôle du cycle cellulaire et joue un rôle notoire dans le maintient de la stabilité génomique. Nous avons postulé qu’ATR puisse réguler la NER de manière dépendante du cycle cellulaire. Cependant, tester cette hypothèse représente un grand défi car, pour des raisons techniques, les méthodes conventionnelles n’ont pas à ce jour été adaptées pour l'évaluation de la cinétique de réparation au cours des différentes phases du cycle cellulaire. Nous avons donc développé une méthode novatrice basée sur la cytométrie en flux permettant de quantifier avec grande précision la cinétique de réparation des 6-4PPs et CPDs dans chacune des phases G0/G1, S et G2/M. Avec cette nouvelle méthode, nous avons pu démontrer que l'inhibition d'ATR ou polη résulte en une très forte inhibition de la NER exclusivement durant la phase S du cycle cellulaire. Ces études ont révélé, pour la première fois, une fonction critique pour ces protéines dans le retrait des lésions qui bloquent la réplication. En outre, nous avons démontré que la synthèse d'ADN est indispensable pour l’inhibition de la réparation en phase-S, reflétant un lien potentiel entre la NER et la réplication. Curieusement, nous avons également montré que parmi six lignées cellulaires tumorales choisies aléatoirement, trois présentent une abrogation totale de la NER uniquement pendant la phase S, ce qui indique que de nombreux cancers humains pourraient être caractérisés par un tel défaut. Nos observations pourraient avoir d'importantes implications pour le traitement du cancer. En effet, le statut de la NER semble constituer un déterminant majeur dans la réponse clinique aux médicaments chimiothérapeutiques tels que le cisplatine, qui inhibent la croissance des cellules cancéreuses via l'induction de lésions à l’ADN.
Resumo:
Le virus de l'hépatite C (VHC) touche 3% de la population mondiale et environ 30% des patients chroniquement infectés développeront une fibrose hépatique. Son génome est un ARN simple brin de polarité positive qui possède un cadre ouvert de lecture flanqué de deux régions non traduites hautement conservées. Différents facteurs peuvent influencer le cycle de réplication du VHC. Deux d’entre eux ont été étudiés dans cette thèse. Tout d'abord, nous nous sommes intéressés à l'effet des structures secondaires et tertiaires du génome sur la réplication du VHC. Les extrémités 5' et 3' du génome contiennent des structures ARN qui régulent la traduction et la réplication du VHC. Le 3'UTR est un élément structural très important pour la réplication virale. Cette région est constituée d’une région variable, d’une séquence poly(U/C) et d’un domaine hautement conservé appelé région X. Des études in vitro ont montré que le 3'UTR possède plusieurs structures ARN double brin. Cependant, les structures ARN telles qu'elles existent dans le 3'UTR dans un contexte de génome entier et dans des conditions biologiques étaient inconnues. Pour élucider cette question, nous avons développé une méthode in situ pour localiser les régions ARN simple brin et double brin dans le 3'UTR du génome du VHC. Comme prédit par les études antérieures, nous avons observé qu’in situ la région X du 3’UTR du génome présente des éléments ARN double brin. Étonnamment, lorsque la séquence poly (U/UC) est dans un contexte de génome entier, cette région forme une structure ARN double brin avec une séquence située en dehors du 3'UTR, suggérant une interaction ARN-ARN distale. Certaines études ont démontré que des structures ARN présentes aux extrémités 5’ et 3' du génome du VHC régulent à la fois la traduction et la réplication du VHC. Cela suggère qu'il y aurait une interaction entre les extrémités du génome qui permettrait de moduler ces deux processus. Dans ce contexte, nous avons démontré l'existence d'une interaction distale ARN-ARN, impliquant le domaine II du 5'UTR et la séquence codante de NS5B du génome du VHC. En outre, nous avons démontré que cette interaction joue un rôle dans la réplication de l'ARN viral. Parallèlement, nous avons étudié l'impact d'une molécule immuno-modulatrice sur la réplication du VHC. La fibrose hépatique est une manifestation majeure de l’infection par le VHC. Hors, il a été montré qu'une molécule immuno-modulatrice appelée thalidomide atténuait la fibrose chez les patients infectés par le VHC. Cependant, son impact sur la réplication virale était inconnu. Ainsi, nous avons étudié l'effet de cette molécule sur la réplication du VHC in vitro et nous avons démontré que la thalidomide active la réplication du virus en inhibant la voie de signalisation de NF-kB. Ces résultats soulignent l’importance de la voie de signalisation NF-kB dans le contrôle de la réplication du VHC, et sont à prendre en considération dans l’établissement d’un traitement contre la fibrose hépatique.
