Global ETD Search

11	The interplay between single-stranded binding proteins on RNA secondary structure Lin, Yi-Hsuan 22 May 2015 (has links) No description available. Molecular Biology Theoretical Physics Biophysics RNA RNA secondary structure RNA-protein binding cooperativity untranslated region
12	Role of the 3'UTR in translation and stability of HCV and HPV mRNAs Wiklund, Lisa January 2002 (has links) <p>Virus mRNAs can be divided into functional regions. The focus of this thesis will be to investigate the function of one of these regions, the 3’ untranslated region (UTR). The 3’UTR of HCV contains a U-rich element and the late 3’UTR of HPV-1 contains an AU-rich element. The roles of these regions in translation and stability of HCV and HPV have been studied. </p><p>A method was established for studying translation of HCV mRNA in living cells. Noninfectious minivirus clones were synthesised <i>in vitro </i>and were transfected into cells by electroporation. This made it possible to bypass the nucleus and to transfer RNA directly into the cell cytoplasm. We found that HCV mRNAs that are translated from the HCV internal ribosome entry site (IRES) are inefficiently translated in comparison to capped and polyadenylated cellular mRNAs. Interestingly, the addition of a cap and a poly(A) tail resulted in a tremendous increase in the initiation of translation at the HCV IRES. This was the result of a discontinuous scanning or shunting mechanism. We also found that the 3’UTR had a small but not significant effect on the virus mRNA translation. Next, we set up an <i>in vitro </i>stability assay to investigate if HCV 3’UTR affects the stability of the virus mRNA. We found that the HCV 3’UTR is very unstable but interaction with the cellular La protein protects the mRNA from premature degradation.</p><p>In parallel experiments, we studied translation and stability of the HPV-1 late mRNAs. By studying an AU-rich sequence in the 3’UTR, we mapped two minimal inhibitory sequence elements, UAUUUAU and UAUUUUUAU that reduced mRNA half-life. We found that the same motifs in the AU-rich element inhibit mRNA translation, demonstrating that the AU-rich element acts via a bimodal mechanism to reduce mRNA stability and inhibit translation.</p> Biochemistry Hepatitis C virus Human Papillomavirus 3’ untranslated region AU-rich sequence mRNA stability translation Biokemi Biochemistry Biokemi
13	5’-Proximal cis-Acting RNA Signals for Coronavirus Genome Replication Guan, Bo-Jhih 01 August 2010 (has links) RNA sequences and higher-order structures in the 5’ and 3’ untranslated regions (UTRs) of positive-strand RNA viruses are known to function as cis-acting elements for translation, replication, and transcription. In coronaviruses, these are best characterized in the group 2a bovine coronavirus (BCoV) and mouse hepatitis virus (MHV), yet their precise mechanistic features are largely undefined. Here, we use a reverse genetics system in MHV to exploit the ~30% nt sequence divergence between BCoV and MHV to establish structure/function relationships of 5’ UTR cis-replication elements. It had been previously shown that a precise replacement of the 391-nt MHV 3’ UTR with the 288-nt BCoV 3’ UTR yields wt-like MHV. Our attempts to replace the 209-nt MHV 5’ UTR with the 210-nt BCoV 5’ UTR, however, yielded a non-viable chimera. Therefore, a systematic analysis of individual 5’-terminal structures was made to identify compatible elements. By placing each of four putative cis-acting domains from the BCoV 5’ UTR into the MHV genome, we learned that (i) stem-loops (SLs) I & II and SLIII are functionally compatible, (ii) SLIV is compatible if it spans parts of the 5’ UTR and the nonstructural protein 1 (nsp1) cistron, thus identifying this part of ORF 1 as a component of the cis-replication signal, (iii) a relatively unstructured 32-nt region mapping between SLIII and SLIV defines a novel virus species-specific cis-replication element, (iv) spontaneous suppressor mutations within MHV SLI and nsp1 cistron compensated for growth defects arising from the BCoV 32-nt element in the MHV genome, (v) cross talk between the 32-nt element, SLI, and the nsp1 cistron appears essential for virus replication, (vi) the BCoV 5’ UTR and nsp1 cistron function together in the MHV genome to generate a wt-like MHV phenotype, and (vii) a functional 5’ UTR-nsp1 domain in group 2a coronaviruses cannot be substituted by the corresponding genomic element from the group 2b SARS-CoV. We postulate that the interaction between the 5’ UTR and nsp1 cistron (or possibly nsp1 protein) functions as a molecular switch between genome translation and ignition of negative-strand RNA synthesis. bovine coronavirus mouse hepatitis virus genome replication untranslated region cis-replication element RNA structure Life Sciences Microbiology Virology
14	Role of the 3'UTR in translation and stability of HCV and HPV mRNAs Wiklund, Lisa January 2002 (has links) Virus mRNAs can be divided into functional regions. The focus of this thesis will be to investigate the function of one of these regions, the 3’ untranslated region (UTR). The 3’UTR of HCV contains a U-rich element and the late 3’UTR of HPV-1 contains an AU-rich element. The roles of these regions in translation and stability of HCV and HPV have been studied. A method was established for studying translation of HCV mRNA in living cells. Noninfectious minivirus clones were synthesised in vitro and were transfected into cells by electroporation. This made it possible to bypass the nucleus and to transfer RNA directly into the cell cytoplasm. We found that HCV mRNAs that are translated from the HCV internal ribosome entry site (IRES) are inefficiently translated in comparison to capped and polyadenylated cellular mRNAs. Interestingly, the addition of a cap and a poly(A) tail resulted in a tremendous increase in the initiation of translation at the HCV IRES. This was the result of a discontinuous scanning or shunting mechanism. We also found that the 3’UTR had a small but not significant effect on the virus mRNA translation. Next, we set up an in vitro stability assay to investigate if HCV 3’UTR affects the stability of the virus mRNA. We found that the HCV 3’UTR is very unstable but interaction with the cellular La protein protects the mRNA from premature degradation. In parallel experiments, we studied translation and stability of the HPV-1 late mRNAs. By studying an AU-rich sequence in the 3’UTR, we mapped two minimal inhibitory sequence elements, UAUUUAU and UAUUUUUAU that reduced mRNA half-life. We found that the same motifs in the AU-rich element inhibit mRNA translation, demonstrating that the AU-rich element acts via a bimodal mechanism to reduce mRNA stability and inhibit translation. Biochemistry Hepatitis C virus Human Papillomavirus 3’ untranslated region AU-rich sequence mRNA stability translation Biokemi Biochemistry Biokemi
15	Characterization and Vector Competence Studies of Chikungunya Virus Lacking Repetitive Motifs in the 3′ Untranslated Region of the Genome Karliuk, Yauhen, vom Hemdt, Anja, Wieseler, Janett, Pfeffer, Martin, Kümmerer, Beate M. 09 May 2023 (has links) Using reverse genetics, we analyzed a chikungunya virus (CHIKV) isolate of the Indian Ocean lineage lacking direct repeat (DR) elements in the 3′ untranslated region, namely DR1a and DR2a. While this deletion mutant CHIKV-∆DR exhibited growth characteristics comparable to the wild-type virus in Baby Hamster Kidney cells, replication of the mutant was reduced in Aedes albopictus C6/36 and Ae. aegypti Aag2 cells. Using oral and intrathoracic infection of mosquitoes, viral infectivity, dissemination, and transmission of CHIKV-∆DR could be shown for the well-known CHIKV vectors Ae. aegypti and Ae. albopictus. Oral infection of Ae. vexans and Culex pipiens mosquitoes with mutant or wild-type CHIKV showed very limited infectivity. Dissemination, transmission, and transmission efficiencies as determined via viral RNA in the saliva were slightly higher in Ae. vexans for the wild-type virus than for CHIKV-∆DR. However, both Ae. vexans and Cx. pipiens allowed efficient viral replication after intrathoracic injection confirming that the midgut barrier is an important determinant for the compromised infectivity after oral infection. Transmission efficiencies were neither significantly different between Ae. vexans and Cx. pipiens nor between wild-type and CHIKV-∆DR. With a combined transmission efficiency of 6%, both Ae. vexans and Cx. pipiens might serve as potential vectors in temperate regions. info:eu-repo/classification/ddc/610 ddc:610
16	TRANSLATIONAL REGULATORY MECHANISMS OF THE RAT AND HUMAN MULTIDRUG RESISTANCE PROTEIN 2 Zhang, Yuanyuan 01 January 2008 (has links) Multidrug resistance protein 2 (MRP2) is the second member the C subfamily in the superfamily of adenosine triphosphate (ATP)-binding cassette (ABC) efflux transporters. MRP2 is a critical player for generation of bile acidindependent bile flow and biliary excretion of glutathione, glucuronate and sulfate conjugates of endo- and xenobiotics. Dysfunctional expression of MRP2 is associated with Dubin-Johnson Syndrome. Pathological and physiological states or xenobiotics change the MRP2 expression level. Under some conditions, expression of the human MRP2 and rat Mrp2 proteins are regulated at the translation level. There are several transcription initiation sites in MRP2/Mrp2 gene. The 5’ untranslated regions (5’UTRs) of MRP2/Mrp2 contains multiple translation start codons. The focus of this study, therefore, was investigation of the translational regulatory mechanisms mediated by the upstream open reading frames (uORF) of MRP2/Mrp2. Using in vitro translation assays and transient cotransfection assays in HepG2 cells, we showed that the rat uORF1 starting at position -109 (relative to the ATG of Mrp2) and the human uORF2 starting at position -105 (relative to the ATG of MRP2) are two major cis-acting inhibitors of translation among the rat and human multiple uORFs, respectively. Translational regulation mediated by the uORFs in the rat Mrp2 mRNA is a combined effect of the leaky scanning model and the reinitiation model, and also results from interaction of the multiple uORFs. In addition, by Ribonuclease Protection Assays (RPA), we detected multiple transcription initiation sites of MRP2/Mrp2 gene in tissues. We also found that the relative abundance of the rat Mrp2 mRNA isoforms with different 5’UTRs differed in the rat liver, kidney, jejunum, ileum, placenta, and lung. This is the first study on the translational regulatory mechanisms of the MRP2/Mrp2 gene. Multidrug resistance protein 2 (MRP2) Translational regulation 5' Untranslated region (5'UTR) Upstream open reading frame (uORF) Transcription initiation sites Medical Toxicology
17	Caracterização funcional do SNP rs6917 na 3\'UTR do gene Proibitina: associação com quimiorresistência em linhagens de melanoma humano e melanoma de crescimento vertical / Functional characterization of SNP rs6917 at Prohibitin 3\'UTR: association with chemoresistance in human melanoma cell lines and vertical growth melanoma Cordoba Camacho, Lizeth Carolina 26 March 2018 (has links) O melanoma cutâneo é um tipo de tumor formado a partir dos melanócitos, células de origem neuroectodérmica que habitam a epiderme, sendo responsáveis por sua pigmentação. Embora este tumor seja o tipo menos frequente de câncer de pele, ele está associado com altas taxas de mortalidade, principalmente devido a seu comportamento agressivo (alta capacidade metastática) e quimiorresistência aos tratamentos (quimioterapia e radioterapia). Os processos da quimiorresistência em melanoma ainda não são totalmente conhecidos. Estudos prévios de nosso grupo evidenciaram que a expressão da proteína Proibitina (PHB) encontra-se aumentada em células de melanoma frente à exposição a certos quimioterápicos, executando sua função de molécula anti-apoptótica, quando localizada no citoplasma, e/ou supressora tumoral quando no núcleo. Adicionalmente, foi visto que a repressão de PHB sensibiliza as células de melanoma, enquanto a sua superexpressão protege da morte celular induzida por cisplatina. Além disso, estudos de associação genótipo-fenótipo revelaram que o alelo menos frequente/raro do SNP rs6917 (C1703T) na região 3\'UTR do gene da PHB foi associado com o risco aumentado de desenvolvimento do melanoma. O objetivo do nosso trabalho foi avaliar o envolvimento do SNP rs6917 da 3\'UTR do gene PHB em linhagens de melanoma humano e sua resposta celular frente ao tratamento com agentes quimioterápicos indutores de estresse celular como temozolomida, cisplatina e vemurafenib. Para avaliar a contribuição do polimorfismo rs6917 no desenvolvimento de melanoma, foi desenvolvido um estudo tipo caso-controle numa população brasileira. O estudo analisou 198 pacientes com melanoma e 200 controles. Em ensaios in vitro as linhagens celulares de melanoma humano SK-Mel 05 e UACC-62 (BRAFV600E mutadas) foram transfectadas com as variantes polimórficas UTR/C e UTR/T clonadas no plasmideo pmirGLO Dual-Luciferase nos sítios de restição NheI/XhoI. A Geneticina (G418) foi utilizada para seleção estável das células, ensaios de western Blot, qRT-PCR e luminiscencia confirmaram a expresão do transgene. As diferentes doses de cisplatina, temozolomida e vemurafenib foram definidas para o tratamento das células. Para avaliar a morte celular foi realizada a técnica de citometria de fluxo após incorporação com iodeto de propidio. Após os tratamentos, foram realizados ensaios clonogênicos e de imunofluorescencia para determinar sobrevivencia celular e localização subcelular da proibitina, respectivamente. Nossos resultados revelaram que variáveis clinicas como a presença de cabelos claros (loiros ou ruivos), mais de 20 pintas, exposição solar intermitente, queimaduras solares na infância e adolescência são fatores de risco para o aparecimento de melanoma. Nos casos, os portadores do alelo T mostraram um risco aumentado em 5,6 vezes para o desenvolvimento de melanoma de crescimento vertical em comparação com os pacientes com genótipo CC. Ensaios in vitro, mostraram que células de melanoma humano superexpressando o alelo raro 3\'UTR/T após tratamento com cisplatina, temozolomida e vemurafenib apresentavam um fenotipo mais proliferativo e clonogênico com menor morte celular quando comparadas com as células 3\'UTR/C e vetor vazio. Ensaios de Western blot e bioluminescência mostraram, respectivamente, um aumento na expressão e atividade do gene da luciferase nas células 3\'UTR/T. Estes resultados mostram que o SNP rs6917 modula a expressão de PHB e que o alelo raro T representa um polimorfismo funcional promovendo a quimiorresistência em melanoma / Melanoma is a type of skin tumor formed from melanocytes, cells of neuroectodermal origin that inhabit the epidermis, being responsible for its pigmentation. Although its low incidence, melanoma is associated with high rates of mortality due to its resistance to chemotherapy. The mechanisms involved in melanoma chemoresistance are not well fully understood yet, therefore, the comprehension of this phenomenon may be useful for the development of new treatment strategies. Previous results from our laboratory showed that Prohibitin (PHB), a protein with diverse functions including regulation of cell cycle progression and apoptosis, was overexpressed in human melanoma cells lines when exposed to high-doses of the chemotherapy drug, cisplatin. PHB knockdown sensitized melanoma cells, meanwhile PHB recombinant overexpression protected melanoma cells to cisplatin-induced cell death. Studies of genotype-phenotype association revealed that the Single Nucleotide Polymorphism rs6917 at the portion 3\'UTR of the PHB gene showed an association with some risk factors for the development of melanoma. The aim of this study was to investigate if the SNP rs6917 affects PHB protein function by modulating cell proliferation and chemoresistance in human melanoma cell lines when exposed to stress inductors agents such as cisplatin, temozolomide and vemurafenib. A hospital-based case-control study was carried out in a Brazilian sample to evaluate the contribution of rs6917 polymorphism in melanoma development. The study comprised 198 melanoma patients and 200 controls. For invitro assays SK-Mel 05 and UACC-62 human melanoma cell lines (both BRAFV600E mutated) were used. The 852bp of PHB-3\'UTR harboring wild-type (3\'UTR/C) or the rare allele (3\'UTR/T) were cloned at pmirGLO Dual-Luciferase plasmid at NheI/XhoI restriction sites and stable cell lines were generated. Geneticin (G418) was used for stable selection, qRT-PCR, Western Blot and luciferase assays confirmed the transgene expression. Different doses of cisplatin, temozolomide and vemurafenib were defined to treat the cells. Cell death was evaluated using flow cytometry after propidium iodide incorporation. Cell survival was assessed by clonogenic assay after cells undergone treatment. Our results revealed that clinical variables like presence of light hair, more than 20 moles, intermintent sun expossure and sunburns at childhood are risk factors for melanoma development. We also showed that T allele carriers have a 5,6 times increased risk to develop vertical growth melanoma in comparison with the CC genotype patients. In vitro assays with transfected melanoma cells, SK-Mel 05 and UACC-62, overexpressing the rare allele 3\'UTR/T showed a more proliferative and clonogenical phenotype and less induced cell death after cisplatin, temozolomide and vemurafenib treatment when compared to cells overexpressing the wild-type allele 3\'UTR/C and empty vector. Westernblot and bioluminiscence assays showed respectively an increase in the expresion and activity of the luciferase gene of the 3\'UTR/T cells in comparison with the 3\'UTR/C and empty vector cells. All together these results showed that the SNP rs6917 modulates the expression of PHB and that the rare allele T represents a functional polymorphism by promoting a chemoresistance phenotype in melanoma 3'untranslated region Cisplatin Cisplatina Drug resistance Melanoma Melanoma Prohibitin Proibitina Região 3' não traduzida Resistência à medicamentos Rs6917 Rs6917 Temozolomida Temozolomide Vermurafenib Vermurafenib
18	Caracterização funcional do SNP rs6917 na 3\'UTR do gene Proibitina: associação com quimiorresistência em linhagens de melanoma humano e melanoma de crescimento vertical / Functional characterization of SNP rs6917 at Prohibitin 3\'UTR: association with chemoresistance in human melanoma cell lines and vertical growth melanoma Lizeth Carolina Cordoba Camacho 26 March 2018 (has links) O melanoma cutâneo é um tipo de tumor formado a partir dos melanócitos, células de origem neuroectodérmica que habitam a epiderme, sendo responsáveis por sua pigmentação. Embora este tumor seja o tipo menos frequente de câncer de pele, ele está associado com altas taxas de mortalidade, principalmente devido a seu comportamento agressivo (alta capacidade metastática) e quimiorresistência aos tratamentos (quimioterapia e radioterapia). Os processos da quimiorresistência em melanoma ainda não são totalmente conhecidos. Estudos prévios de nosso grupo evidenciaram que a expressão da proteína Proibitina (PHB) encontra-se aumentada em células de melanoma frente à exposição a certos quimioterápicos, executando sua função de molécula anti-apoptótica, quando localizada no citoplasma, e/ou supressora tumoral quando no núcleo. Adicionalmente, foi visto que a repressão de PHB sensibiliza as células de melanoma, enquanto a sua superexpressão protege da morte celular induzida por cisplatina. Além disso, estudos de associação genótipo-fenótipo revelaram que o alelo menos frequente/raro do SNP rs6917 (C1703T) na região 3\'UTR do gene da PHB foi associado com o risco aumentado de desenvolvimento do melanoma. O objetivo do nosso trabalho foi avaliar o envolvimento do SNP rs6917 da 3\'UTR do gene PHB em linhagens de melanoma humano e sua resposta celular frente ao tratamento com agentes quimioterápicos indutores de estresse celular como temozolomida, cisplatina e vemurafenib. Para avaliar a contribuição do polimorfismo rs6917 no desenvolvimento de melanoma, foi desenvolvido um estudo tipo caso-controle numa população brasileira. O estudo analisou 198 pacientes com melanoma e 200 controles. Em ensaios in vitro as linhagens celulares de melanoma humano SK-Mel 05 e UACC-62 (BRAFV600E mutadas) foram transfectadas com as variantes polimórficas UTR/C e UTR/T clonadas no plasmideo pmirGLO Dual-Luciferase nos sítios de restição NheI/XhoI. A Geneticina (G418) foi utilizada para seleção estável das células, ensaios de western Blot, qRT-PCR e luminiscencia confirmaram a expresão do transgene. As diferentes doses de cisplatina, temozolomida e vemurafenib foram definidas para o tratamento das células. Para avaliar a morte celular foi realizada a técnica de citometria de fluxo após incorporação com iodeto de propidio. Após os tratamentos, foram realizados ensaios clonogênicos e de imunofluorescencia para determinar sobrevivencia celular e localização subcelular da proibitina, respectivamente. Nossos resultados revelaram que variáveis clinicas como a presença de cabelos claros (loiros ou ruivos), mais de 20 pintas, exposição solar intermitente, queimaduras solares na infância e adolescência são fatores de risco para o aparecimento de melanoma. Nos casos, os portadores do alelo T mostraram um risco aumentado em 5,6 vezes para o desenvolvimento de melanoma de crescimento vertical em comparação com os pacientes com genótipo CC. Ensaios in vitro, mostraram que células de melanoma humano superexpressando o alelo raro 3\'UTR/T após tratamento com cisplatina, temozolomida e vemurafenib apresentavam um fenotipo mais proliferativo e clonogênico com menor morte celular quando comparadas com as células 3\'UTR/C e vetor vazio. Ensaios de Western blot e bioluminescência mostraram, respectivamente, um aumento na expressão e atividade do gene da luciferase nas células 3\'UTR/T. Estes resultados mostram que o SNP rs6917 modula a expressão de PHB e que o alelo raro T representa um polimorfismo funcional promovendo a quimiorresistência em melanoma / Melanoma is a type of skin tumor formed from melanocytes, cells of neuroectodermal origin that inhabit the epidermis, being responsible for its pigmentation. Although its low incidence, melanoma is associated with high rates of mortality due to its resistance to chemotherapy. The mechanisms involved in melanoma chemoresistance are not well fully understood yet, therefore, the comprehension of this phenomenon may be useful for the development of new treatment strategies. Previous results from our laboratory showed that Prohibitin (PHB), a protein with diverse functions including regulation of cell cycle progression and apoptosis, was overexpressed in human melanoma cells lines when exposed to high-doses of the chemotherapy drug, cisplatin. PHB knockdown sensitized melanoma cells, meanwhile PHB recombinant overexpression protected melanoma cells to cisplatin-induced cell death. Studies of genotype-phenotype association revealed that the Single Nucleotide Polymorphism rs6917 at the portion 3\'UTR of the PHB gene showed an association with some risk factors for the development of melanoma. The aim of this study was to investigate if the SNP rs6917 affects PHB protein function by modulating cell proliferation and chemoresistance in human melanoma cell lines when exposed to stress inductors agents such as cisplatin, temozolomide and vemurafenib. A hospital-based case-control study was carried out in a Brazilian sample to evaluate the contribution of rs6917 polymorphism in melanoma development. The study comprised 198 melanoma patients and 200 controls. For invitro assays SK-Mel 05 and UACC-62 human melanoma cell lines (both BRAFV600E mutated) were used. The 852bp of PHB-3\'UTR harboring wild-type (3\'UTR/C) or the rare allele (3\'UTR/T) were cloned at pmirGLO Dual-Luciferase plasmid at NheI/XhoI restriction sites and stable cell lines were generated. Geneticin (G418) was used for stable selection, qRT-PCR, Western Blot and luciferase assays confirmed the transgene expression. Different doses of cisplatin, temozolomide and vemurafenib were defined to treat the cells. Cell death was evaluated using flow cytometry after propidium iodide incorporation. Cell survival was assessed by clonogenic assay after cells undergone treatment. Our results revealed that clinical variables like presence of light hair, more than 20 moles, intermintent sun expossure and sunburns at childhood are risk factors for melanoma development. We also showed that T allele carriers have a 5,6 times increased risk to develop vertical growth melanoma in comparison with the CC genotype patients. In vitro assays with transfected melanoma cells, SK-Mel 05 and UACC-62, overexpressing the rare allele 3\'UTR/T showed a more proliferative and clonogenical phenotype and less induced cell death after cisplatin, temozolomide and vemurafenib treatment when compared to cells overexpressing the wild-type allele 3\'UTR/C and empty vector. Westernblot and bioluminiscence assays showed respectively an increase in the expresion and activity of the luciferase gene of the 3\'UTR/T cells in comparison with the 3\'UTR/C and empty vector cells. All together these results showed that the SNP rs6917 modulates the expression of PHB and that the rare allele T represents a functional polymorphism by promoting a chemoresistance phenotype in melanoma Cisplatina Melanoma Proibitina Região 3' não traduzida Resistência à medicamentos Rs6917 Temozolomida Vermurafenib 3'untranslated region Cisplatin Drug resistance Melanoma Prohibitin Rs6917 Temozolomide Vermurafenib
19	The Physicochemical Characterization of Proteins and RNA in Positive Strand RNA Viruses Haddad, Christina 26 May 2023 (has links) No description available. Biophysics Biochemistry Chemistry Virology
20	The Characterization and Utilization of Middle-range Sequence Patterns within the Human Genome Shepard, Samuel Steven 20 May 2010 (has links) No description available. Bioinformatics Markov gene prediction sequence classification abstraction bioinformatics genomics UTR untranslated region machine learning support vector machine homogeneous model non-randomness MRI mid-range inhomogeneity

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