Global ETD Search

21	Sítios polimórficos do gene HLA-G na asma brônquica / Polymorphic sites of HLA-G gene and bronchial asthma Cinthia Caroline Alves 11 August 2016 (has links) A asma brônquica é doença inflamatória crônica complexa das vias aéreas provocada pela interação de fatores genéticos e ambientais. O gene HLA-G (Antígeno Leucocitário Humano G) foi identificado como gene de susceptibilidade à asma, codificando uma molécula não clássica do complexo principal de histocompatibilidade (MHC, do inglês Major Histocompatibility Complex) de classe I com função moduladora das células do sistema imunológico. Nesse contexto, avaliamos o papel do HLA-G na asma afim de identificar genótipos, alelos e haplótipos associados com proteção ou susceptibilidade nas diferentes formas de apresentação da doença. Investigamos os sítios polimórficos da região 3\' não traduzida (3\'UTR-untranslated region) do HLA-G (14 pb Ins/Del, + 3001 C/T, +3003 C/T, +3010 C/G, +3027 A/C, +3035 C/T, +3142 C/G, +3187 A/G e +3196 C/G) em 118 pacientes asmáticos estratificados em asma leve ou moderada e grave e 183 indivíduos brasileiros saudáveis. Testes de associação foram realizados para avaliar as frequências dos genótipos, alelos e haplótipos da 3\'UTR do HLA-G na asma brônquica, considerada como grupo total ou estratificada de acordo com a gravidade da doença. Nossos resultados demonstraram que as frequências dos alelos +3001 C, +3003 C, +3035 C e +3196 C e do genótipo 14 bp DI estavam aumentadas no grupo total e nas diversas formas de apresentação da doença. Os alelos +3010 C e +3142 G e o genótipo +3010 CC estavam mais representados em pacientes com asma leve ou moderada. Por outro lado, os genótipos +3010 GG, +3142 CG e +3187 AG e o alelo +3010 G apresentaram maior frequência nos asmáticos graves, estando fortemente associados com o desenvolvimento da forma grave da asma. Além disso, os genótipos 14 pb II, +3010 CC e +3142 GG e o alelo +3010 C conferiram proteção à asma grave. Além disso, identificamos um haplótipo da 3\'UTR do HLA-G associado ao desenvolvimento de asma brônquica, a UTR-8, e um haplótipo que conferiu proteção contra a mesma, a UTR-7. Concluindo, neste estudo, observamos frequências diferenciais de sítios polimórficos do segmento 3\'UTR do HLA-G associados com predisposição à asma brônquica e, também, com a gravidade da doença / Bronchial asthma is a complex chronic inflammatory disease of the airways caused by the interaction of genetic susceptibility and environmental factors. The HLA-G (Human Leucocyte Antigen G) gene was identified as a susceptible marker for bronchial asthma, encoding a nonclassical Major Histocompatibility Complex (MHC) class I molecule, considered to be an important immune check point modulator. In the present study, we evaluated the role of HLA-G in bronchial asthma susceptibility and disease severity, evaluating HLA-G genotypes, alleles or haplotypes. We investigated the HLA-G 3\'Untraslated region (3\'UTR) polymorphic sites (14-bp INS/DEL, +3001, +3003C/T, +3010C/G, +3027A/C, +3035C/T, +3142C/G, +3187A/G, and +3196C/G) in 118 asthmatic Brazilian patients, stratified according to disease severity into mild/moderate and severe asthma, and in 183 healthy individuals. HLA-G 3\'UTR variation sites were individually analyzed or lumped together as haplotypes. Our results showed that frequencies of +3001 C, +3003 C, +3035 C e +3196 C alleles and 14 pb ID genotype were increased in asthma group considered as a whole and in patients stratified according to disease severity. The +3010 C and .3142 G alleles and the +3010 CC genotype were overrepresented in patients with mild and moderate forms. Similarly, the +3010 GG, +3142 CG, +3187 AG genotypes and +3010 G allele presented increased frequency in severe asthmatic patients. In contrast, the 14 pb II, +3010 CC and +3142 GG genotypes and +3010 C allele conferred protection against severe asthma. In addition, we identified a 3\'UTR HLA-G haplotype that was associated with bronchial asthma development (UTR-8) and one haplotype that conferred protection against asthma (UTR-7). In conclusion, in this study, we observed differential frequencies at HLA-G 3\'UTR polymorphic sites that are associated with bronchial asthma predisposition and, also, with disease severity 3'UTR Alelo Asma Gravidade Haplótipos HLA-G Proteção Susceptibilidade 3'UTR Allele Asthma Haplotype HLA-G Protection Severity Susceptibility
22	Régulation post-transcriptionnelle dans l'adaptation des plantes genes aux stress abiotiques / Post-transcriptional regulation of plant genes in adaptation to abiotic stresses : regulation of target of rapamycin (tor) gene Mahgoub, Hany 05 May 2011 (has links) Les plantes sont ancrées au sol pendant la majorité de leur cycle de vie et doivent donc constamment adapter leur croissance et leur métabolisme aux stress abiotiques. Ainsi, la subsistance des plantes dépend de leur capacité à réguler rapidement l’expression des gènes afin d’adapter leur physiologie à l’environnement. L’expression d’un gène peut être contrôlé à plusieurs niveaux; transcriptionnel, post-transcriptionnel, traductionnel et post-traductionnel.De nombreux processus cellulaires vitaux tels que la réplication de l’ADN, la transcription, la synthèse protéique, et la dégradation des protéines, sont régulés par les signaux environnementaux. Des études chez la levure, la drosophile et les animaux ont montré que la protéine kinase TOR (Target Of Rapamycin) est impliquée dans le contrôle de la croissance cellulaire et de la prolifération en réponse à différents signaux tels que les nutriments, les acides aminés, les hormones et les facteurs de croissance. Chez Arabidopsis thaliana, TOR est nécessaire au développement de l’embryon et de l’endosperme. De plus, des modifications du niveau de protéine AtTOR affectent la croissance végétative et la reproduction.Le principal objectif de cette thèse est de caractériser les mécanismes qui contrôlent l’expression de AtTOR en déterminant les éléments de régulation situés sur le la région 5’ non traduite (5′UTR) de l’ARNm de AtTOR, puis de manipuler ces éléments de régulation afin d étudier leur rôle. Nous avons choisi de nous focaliser sur la région 5′UTR de AtTOR, et sur une microORF (uORF) située en amont de l’ORF principale de AtTOR. Il s’agit de la première tentative d’étude de la régulation de l’expression de TOR par ces éléments chez les eucaryotes.Trois constructions chimériques ont été réalisées pour cette étude et transformée transitoirement est de manière stable dans des plantes. La première construction (contrôle positif) incluse le promoteur de AtTOR, la région 5′UTR, le premier intron et le début du premier exon fusionné au gène rapporteur GUS. La seconde construction (microORF mutée) est présente une mutation du codon start de la microORF (ATG changé en TTG). Enfin, la troisième construction (5′UTR délétée) contient la même séquence que le contrôle positif mais sans la région 5′UTR. Ces constructions ont également été placée sous le contrôle du promoteur 35S au lieu du promoteur de AtTOR afin d’étudier un lien éventuel entre la 5′UTR et la microRF et le promoteur de AtTORNos résultats indiquent une régulation généralement négative exercée par la 5′UTR, et dans une moindre mesure par la microORF, sur l’expression de AtTOR. Cette régulation semble avoir lieu au niveau transcriptionnel ou au niveau de la stabilité de l’ARNm, mais pas au niveau de la traduction. En effet, les modifications du niveau de transcrit GUS sont suivie d’un changement équivalent de l’activité GUS. De plus, nous avons observé que l’auxine et le sucrose ont un effet positif sur l’expression de AtTOR. Dans le cas de l’auxine, cet effet semble lié à la présence de la région 5′UTR de AtTOR.D’autres études de la fonction de la région 5’UTR et de la microORF de AtTOR, ainsi que de leur relation avec d’autres éléments régulateurs localisée dans le promoteur de AtTOR, permettront de mieux comprendre comment ces éléments régulateurs contrôlent finement l’expression de AtTOR. / Land plants are anchored in one place for most of their life cycle and therefore must constantly adapt their growth and metabolism to abiotic stresses. Thus, plants’ subsistence depends on their ability to regulate rapidly gene expression in order to adapt their physiology to their environment. The expression of a gene can be controlled at many levels, including transcription, post-transcription, translation, and post-translation.Many vital cellular processes like DNA replication, transcription, protein synthesis, and protein degradation are regulated by environmental signals. Studies in yeast, Drosophila, and mammals showed that the target of rapamycin (TOR) protein is involved in control of cell growth and cell proliferation in response to different types of environmental signals such as nutrients, amino acids, hormones, and growth factors. In Arabidopsis thaliana, TOR is necessary for both embryo and endosperm development in, and changes of TOR protein level affect both vegetative and reproductive growth.The main purpose from this thesis is to highlight the mechanisms that control AtTOR expression at the post-transcriptional level through determination of the possible regulatory elements within the 5′ untranslated region (5′UTR) or the first intron of AtTOR mRNA itself, and through manipulation of these regulatory elements to study their precise role. We have chosen to focus on the small upstream open reading frame (uORF) as well as the 5′UTR region. This is the first attempt to study the regulation of TOR kinase expression in eukaryotes through these small uORF or the sequence of 5′ untranslated region (5′UTR).To achieve this purpose, three chimeric constructs have been established and transformed in Nicotiana benthamiana leaves and Arabidopsis thaliana plants. The first construct (the positive control) contains the AtTOR promoter, the 5′UTR, the first intron, and the beginning of the second exon fused to the GUS reporter gene. The second construct (mutated uORF) have the same sequence as the positive control construct except the start codon of uORF was changed from ATG to TTG. The third construct (deleted 5′UTR) have the same sequence as the positive control construct without the 5′UTR. These constructs have also been placed under the activity of CaMV 35S promoter instead of AtTOR promoter to investigate whether there is a link between the 5′UTR/or uORF and the promoter.Our work show an overall negative regulation exerted by the 5′UTR and, to a lesser extent, by the uORF on AtTOR gene regulation. This regulation is likely at the level of transcription or mRNA stability, since the changes in GUS transcript level was followed by the same changes in GUS activity. In addition we found that external inducers like auxin or sucrose exert a positive effect on AtTOR expression. This effect appears somehow linked to the presence of the 5′UTR of AtTOR mRNA.Greater insight into the molecular mechanisms of AtTOR 5′UTR/or uORF function and its relationship with other regulatory elements located in AtTOR promoter will be required to understand how these regulatory elements work either individually or in combination to achieve the fine and accurate regulation of their gene expression. Arabidopsis thaliana Target of Rapamicyne Régulations post transcriptionnelles 5'utr Micro ORF Arabaidopsis thaliana Target of Rapamicyn Post transcriptional regulations 5'utr Micro ORF
23	Estudo do controle traducional de PPAR durante o processo de diferenciação de macrófagos / Translation control of PPAR during macrophage differentiation Cambiaghi, Tavane David 12 February 2010 (has links) A diferenciação das células THP-1 em macrófagos, induzida por PMA, é associada ao aumento da expressão de PPAR. A UTR 5` de PPAR regula negativamente sua síntese, porém, o mecanismo molecular envolvido não foi esclarecido. Neste estudo, o estado traducional das células THP-1 diferenciadas por PMA foi investigado em associação à superprodução de PPAR. A presença de uORFs no transcrito de PPAR, contendo códons de iniciação compatíveis com seqüências de Kosak, poderia ser a causa do efeito inibitório da UTR 5`. A incorporação reduzida de L-[U-14C]leucina revelou que a superprodução de PPAR ocorre durante inibição global da tradução, confirmada pela redução dos polissomos. Além disso, desfosforilação de 4E-BP1 foi observada após tratamento com PMA e é associada a inibição da iniciação da tradução e estimulação da tradução dependente de IRES. De fato, a estrutura da UTR 5` de PPAR apresenta características de transcritos que formam IRES. Assim, a produção de PPAR pode ser regulada por IRES e ocorre concomitantemente com a inibição da tradução dependente de cap / The differentiation of THP-1 cells in macrophages, induced by PMA, is associated to overexpression of PPARb. Previous studies have shown that the PPARb 5\' UTR negatively regulates its expression. In our study the translational status of PMA-differentiated THP-1 cells was investigated in association to PPARb overexpression. Putative compatible Kosak initiation codons were identified in the PPARb uORFs and could be involved in the inhibitory effect of 5\' UTR. Decreased incorporation of L-[U-14C]leucine in proteins revealed that the overproduction of PPARb in PMA-differentiated THP-1 cells coincides with a global decrease in the protein synthesis process. Translation impairment was confirmed by polysome profile assay. An intense dephosphorylation of 4E-BP by PMA treatment was observed. Dephosphorylated 4E-BP causes inhibition of eIF4E cap-dependent translation initiation and favors IRES-dependent translation. The PPARb 5\' UTR structure has some characteristics that resemble the one described for IRES. Therefore, the PPARb production may be controlled by IRES 4E-BP1 4E-BP1 5\' UTR Cell differentiation Células THP-1 Diferenciação celular Macrófagos Macrophages PPARB PPARB THP-1 cells UTR 5\'
24	Stadienspezifische Expression und Lokalisation Kalzium-abhängiger Proteinkinasen (CDPK) von Cryptosporidium parvum in der In-vitro-Kultur Etzold, Manja 28 September 2015 (has links) (PDF) Die Kryptosporidiose stellt aufgrund ihres zoonotischen Charakters und der Entwicklung chronischer Durchfälle bei Immunsupprimierten ein hohes Gesundheitsrisiko für den Menschen, aber ebenso für Tiere dar. Derzeit verfügbare Therapeutika ermöglichen keine zuverlässige Bekämpfung klinischer Symptome oder eine Erregerelimination, daher ist die Erforschung neuer Therapieansätze dringend notwendig. CDPK stellen in diesem Zusammenhang interessante Zielmoleküle dar, da sie zwar in Pflanzen und Protisten einschließlich Apikomplexa, jedoch nicht in Pilzen und Säugetieren vorkommen. Trotz der Entdeckung vielversprechender neuer Wirkstoffe gegen CpCDPK1 in den letzten Jahren ist zur Lokalisation und Funktion von CDPK in C. parvum wenig bekannt.Diese Arbeit belegt die Transkription von sechs CpCDPK in vitro und beschreibt erstmals die Länge der 3’UTR von CpCDPK. Die Translation wurde durch den Nachweis spezifischen Proteins in Sporozoiten im Immunoblot sowie die Lokalisation von CpCDPK1 mit Hilfe der Immunfluoreszenz belegt. Möglicherweise wird die CpCDPK1 durch N-Myristoylierung an Membranen gebunden, an die Oberfläche von Zoiten gebracht und sezerniert. Eine Rolle des Enzyms im Invasions- und Egressmechanismus des Parasiten wird diskutiert. Cryptosporidium parvum CDPK Expression in vitro 3’UTR Real Time-PCR Immunoblot Immunolokalisation Cryptosporidium parvum CDPK Expression in vitro 3’UTR Real Time-PCR Immunoblot Immunolocalisation ddc:636.089
25	Analyse des PEX1-Gens bei Patienten mit Zellweger-Syndrom: Identifikation einer neuen Deletion und Untersuchung von Polymorphismen in der 5'-untranslatierten Region / Analysis of the PEX1 gene of patients with Zellweger syndrome: Identification of a novel deletion and characterization of polymorphisms in the 5' untranslated region Rabenau, Jana 19 July 2011 (has links) No description available. 610 Medizin, Gesundheit Medicine Peroxisomen Zellweger-Syndrom Peroxisomenbiogenesedefekt PEX1 5 UTR-Polymorphismen SNP peroxisome Zellweger syndrome peroxisome biogenesis disorder PEX1 5 UTR polymorphisms SNP 44.67 MED 461 Pädiatrie
26	Drosophila UNR: a factor involved in the translational regulation of dosage compensation Abaza, Irina 03 November 2006 (has links) Dosage compensation is a mechanism that equalizes the expression of X-linked genes in those organisms in which males and females differ in the number of X chromosomes. In Drosophila melanogaster, dosage compensation is achieved by up-regulating the transcription of the single male X chromosome. This effect is mediated by a chromatin remodeling complex known as the Male Specific Lethal (MSL) complex or Dosage Compensation Complex (DCC). In female flies, dosage compensation is inhibited primarily because of the translational repression of the mRNA encoding one of the DCC subunits, MSL-2, by the female-specific RNA binding protein Sex-lethal (SXL). To inhibit translation, SXL binds to poly(U) stretches present in both the 5’ and 3’ UTRs of msl-2 mRNA. Sequences adjacent to those SXL-binding sites in the 3´UTR are also required for translation inhibition and are bound by co-repression. In this thesis work, we have designed an affinity chromatography assay to isolate the putative co-repressor(s), and have identified the protein Upstream of N-ras (UNR). Drosophila UNR (dUNR) is an ubiquitous, conserved protein that contains 5 cold shock domains (CSD) and a glutamine- (Q) rich amino- terminal extension. We show that dUNR is a necessary co-factor for SXL-mediated msl-2 repression. SXL recruits dUNR to the 3’ UTR of msl-2 mRNA, imparting a sex-specific function to this ubiquitous protein. Domain mapping experiments indicate that dUNR interacts with SXL and msl-2 mRNA through CSD1, and that the domains for translation inhibition and SXL interaction can be distinguished. Our data indicate that the Q-rich domain, together with CSDs 1 and 2, plays an important role in translational repression, and suggest that factors in addition to dUNR and SXL are required for repression of msl-2 mRNA. Using a combination of UNR immunoprecipitation and microarray analysis, we have identified the mRNAs that are bound to dUNR in male and female flies. Our results suggest that dUNR is not only a novel regulator of dosage compensation, but also a general post-transcriptional regulator of gene expression. translation initiation translational control 5’UTR binding proteins 3’ UTR binding proteins SXL dosage compensation msl-2 UNR poly(A) tail and PABP microarrays co-repressors 575
27	Estudo do controle traducional de PPAR durante o processo de diferenciação de macrófagos / Translation control of PPAR during macrophage differentiation Tavane David Cambiaghi 12 February 2010 (has links) A diferenciação das células THP-1 em macrófagos, induzida por PMA, é associada ao aumento da expressão de PPAR. A UTR 5` de PPAR regula negativamente sua síntese, porém, o mecanismo molecular envolvido não foi esclarecido. Neste estudo, o estado traducional das células THP-1 diferenciadas por PMA foi investigado em associação à superprodução de PPAR. A presença de uORFs no transcrito de PPAR, contendo códons de iniciação compatíveis com seqüências de Kosak, poderia ser a causa do efeito inibitório da UTR 5`. A incorporação reduzida de L-[U-14C]leucina revelou que a superprodução de PPAR ocorre durante inibição global da tradução, confirmada pela redução dos polissomos. Além disso, desfosforilação de 4E-BP1 foi observada após tratamento com PMA e é associada a inibição da iniciação da tradução e estimulação da tradução dependente de IRES. De fato, a estrutura da UTR 5` de PPAR apresenta características de transcritos que formam IRES. Assim, a produção de PPAR pode ser regulada por IRES e ocorre concomitantemente com a inibição da tradução dependente de cap / The differentiation of THP-1 cells in macrophages, induced by PMA, is associated to overexpression of PPARb. Previous studies have shown that the PPARb 5\' UTR negatively regulates its expression. In our study the translational status of PMA-differentiated THP-1 cells was investigated in association to PPARb overexpression. Putative compatible Kosak initiation codons were identified in the PPARb uORFs and could be involved in the inhibitory effect of 5\' UTR. Decreased incorporation of L-[U-14C]leucine in proteins revealed that the overproduction of PPARb in PMA-differentiated THP-1 cells coincides with a global decrease in the protein synthesis process. Translation impairment was confirmed by polysome profile assay. An intense dephosphorylation of 4E-BP by PMA treatment was observed. Dephosphorylated 4E-BP causes inhibition of eIF4E cap-dependent translation initiation and favors IRES-dependent translation. The PPARb 5\' UTR structure has some characteristics that resemble the one described for IRES. Therefore, the PPARb production may be controlled by IRES 4E-BP1 Células THP-1 Diferenciação celular Macrófagos PPARB UTR 5\' 4E-BP1 5\' UTR Cell differentiation Macrophages PPARB THP-1 cells
28	STUDIEN ZUR FUNKTION DER 3\'-NICHTTRANSLATIERTEN BEREICHE DES GLUTAMINSYNTHETASE-GENS Flade, Hans Martin 17 July 2007 (has links) Das Enzym Glutaminsynthetase (GS) wird in Organen mit niedriger enzymatischer Aktivität in zumeist allen Zellen exprimiert. Auf der anderen Seite ist die Expression in Geweben mit hoher Aktivität auf spezialisierte Zellen beschränkt. So findet man in der Säugerleber Expression der GS nur in Hepatozyten, die in ein bis drei Zellreihen um die Zentralvenen lokalisiert sind. In der vorliegenden Arbeit wurde die Frage gestellt, ob der zwischen verschiedenen Spezies hoch konservierte 3’-Bereich der nicht-translatierten Region des GS-Gens an der Regulation der Expression und der Zonierung beteiligt ist. Hierzu wurden Reportergenstudien, transiente Transfektionen sowie Northern-Blot-Experimente unter Verwendung von primären Hepatozyten aus dem periportalen und perizentralen Bereich der Rattenleber durchgeführt. Die Ergebnisse der Arbeit lassen eine über das 3’-Ende vermittelte selektive Destabilisierung der GS-mRNA in periportalen (GS-negativen) Hepatozyten vermuten. Zudem zeigte sich, dass die Wechselwirkung des 3’-UTRs mit Bereichen des 5’-UTRs, bzw. dem GS-Promotor für die eigentliche Regulation verantwortlich ist. Es lässt sich vermuten, dass eine posttranskriptionale Regulation neben den in den letzten Jahren aufgeklärten Mechanismen der Regulation der Transkription mit zur Feinsteuerung der Expression der GS beiträgt. info:eu-repo/classification/ddc/610 ddc:610
29	Parallel Genetics of Gene Regulatory Sequences in Caenorhabditis elegans Froehlich, Jonathan 08 June 2022 (has links) Wie regulatorische Sequenzen die Genexpression steuern, ist von grundlegender Bedeutung für die Erklärung von Phänotypen in Gesundheit und Krankheit. Die Funktion regulatorischer Sequenzen muss letztlich in ihrer genomischen Umgebung und in entwicklungs- oder gewebespezifischen Zusammenhängen verstanden werden. Da dies eine technische Herausforderung ist, wurden bisher nur wenige regulatorische Elemente in vivo charakterisiert. Hier verwenden wir Induktion von Cas9 und multiplexed-sgRNAs, um hunderte von Mutationen in Enhancern/Promotoren und 3′ UTRs von 16 Genen in C. elegans zu erzeugen. Wir quantifizieren die Auswirkungen von Mutationen auf Genexpression und Physiologie durch gezielte RNA- und DNA-Sequenzierung. Bei der Anwendung unseres Ansatzes auf den 3′ UTR von lin-41, bei der wir hunderte von Mutanten erzeugen, stellen wir fest, dass die beiden benachbarten Bindungsstellen für die miRNA let-7 die lin-41-Expression größtenteils unabhängig voneinander regulieren können, mit Hinweisen auf eine mögliche kompensatorische Interaktion. Schließlich verbinden wir regulatorische Genotypen mit phänotypischen Merkmalen für mehrere Gene. Unser Ansatz ermöglicht die parallele Analyse von genregulatorischen Sequenzen direkt in Tieren. / How regulatory sequences control gene expression is fundamental for explaining phenotypes in health and disease. The function of regulatory sequences must ultimately be understood within their genomic environment and development- or tissue-specific contexts. Because this is technically challenging, few regulatory elements have been characterized in vivo. Here, we use inducible Cas9 and multiplexed guide RNAs to create hundreds of mutations in enhancers/promoters and 3′ UTRs of 16 genes in C. elegans. We quantify the impact of mutations on expression and physiology by targeted RNA sequencing and DNA sampling. When applying our approach to the lin-41 3′ UTR, generating hundreds of mutants, we find that the two adjacent binding sites for the miRNA let-7 can regulate lin-41 expression largely independently of each other, with indications of a compensatory interaction. Finally, we map regulatory genotypes to phenotypic traits for several genes. Our approach enables parallel analysis of gene regulatory sequences directly in animals. CRISPR-Cas9 Caenorhabditis elegans genregulatorische Sequenzen Genregulation 3′ UTR CRISPR-Cas9 Caenorhabditis elegans gene regulatory sequences gene regulation 3′ UTR 570 Biologie WG 1940 WC 4460 ddc:570
30	Prevalent and differential herpesviral gene regulation mediated by 3'-untranslated regions McClure, Lydia Virginia 16 September 2014 (has links) Herpesviral infections are currently incurable and are associated with severe human diseases, such as cancer. Kaposi’s Sarcoma-associated Herpesvirus (KSHV), like all herpesviruses, undergoes a long-term, latent infection where few viral products are made as a mechanism to evade the host immune system. Recently, the KSHV latent genome was shown to have bivalent histone marks thought to keep the virus poised for replication. However, it is unclear how the virus prevents spurious leaky transcription from this primed state. The 3' untranslated region (3'-UTR) of transcripts is a common site of gene expression regulation, however less than half of the KSHV 3'-UTRs have been mapped and few studies have interrogated their role during infection. The work presented here is the first large-scale map and analysis of the KSHV 3'-UTRs. Four methods were used to identify the 3'-UTRs expressed by the ~85 KSHV genes, including prediction algorithms, 3'-RACE, DNA tiling array, and next generation deep sequencing analysis. The role of each KSHV 3'-UTR in gene expression was then examined using luciferase reporter assays and showed a surprising prevalence of negative regulation conveyed during latent infection. Sequential deletions across numerous 3'-UTRs indicated RNA structure is likely involved in this regulation. In addition, several KSHV 3'-UTRs conveyed an increase in translation during lytic infection through enhanced recognition by the cap-dependent translation initiation machinery activated via the MNK1 kinase. A second mechanism of KSHV gene regulation was identified through motifs encoded in the K7 3'-UTR. This work indicated that a previously characterized RNA element and a novel putative hairpin are both partially responsible for negative regulation conveyed by the K7 3'-UTR. We hypothesize that these structural motifs control expression of the K7 transcript by altering its sub-cellular location and/or via RNA stability. This work represents a broad 3'-UTR study that mapped the KSHV 3'-UTRs and is the first large-scale functional analysis of 3'-UTRs from a large genome virus. We have implicated post-transcriptional mechanisms, along with known transcriptional regulation, in viral evasion of the immune response during latency and the escape of viral-mediated host shutoff. These results identify new potential targets for therapeutic intervention of KSHV-associated disease. / text Kaposi's Sarcoma-associated Herpesvirus KSHV 3'-untranslated region 3'-UTR Gene expression regulation

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