Global ETD Search

31	Structure of Retroviral 5′-Untranslated Regions and Interactions with Host and Viral Proteins Comandur, Roopa January 2016 (has links) No description available. Biochemistry Cellular Biology Virology HIV-1 PFV reverse transcription tRNA UTR hLysRS TLE fluorescence anisotropy SAXS NMR, SHAPE anticodon binding domain
32	<b>TOWARDS QUANTITATIVE MOLECULAR ISOTHERMAL AMPLIFICATION FOR POINT-OF-CARE HIV VIRAL LOAD MONITORING</b> Emeka Nwanochie (18320661) 22 April 2024 (has links) <p dir="ltr">Since the beginning of the HIV/AIDS epidemic, 85.6 million people worldwide have become infected with HIV; more than half of whom have died from AIDS-related complications.[1] Sustained viral suppression below the clinically relevant threshold (1000 copies per mL) with highly active antiretroviral therapy (HAART) has proven effective at managing and prolonging the life expectancy of people living with HIV (PLHIV). However, in 2022, 11.3 million PLHIV had still not achieved viral suppression and may become susceptible to both HIV transmission and a variety of opportunistic infections. Of particular importance is the complex issue of patient non-compliance in global HIV management due to social, economic, behavioral, and healthcare access barriers, potentially disconnecting many PLHIV from the HIV care continuum. Therefore, to boost patient engagement in clinical care and to improve overall patient outcomes, new approaches to viral load monitoring practices need to be developed to increase access, particularly in regions of high HIV prevalence.</p><p dir="ltr">Nucleic acid amplification tests (NAATs) have emerged as potent tools for monitoring viral load, with reverse transcription quantitative polymerase chain reaction (RT-qPCR) being recognized as the benchmark due to its sensitivity and ability for real-time quantification enabled by fluorescence signal emission. Nevertheless, RT-qPCR is burdened by drawbacks including extended processing times, high operational costs, and the requirement for specialized laboratory facilities. In this study, we propose a novel method for HIV-1 viral load monitoring by integrating reverse-transcriptase loop-mediated isothermal amplification (RT-LAMP) with real-time particle diffusometry (PD). This approach allows for the continuous monitoring of changes in the diffusion of 400 nm fluorescent particles during RT-LAMP amplification, targeting the <i>p24</i> gene region of HIV-1 RNA. This enables the real-time detection of amplification curves, achieving a detection sensitivity in water samples as low as 25 virus particles per μL within a short duration of 30 minutes. Additionally, to address challenges related to amplification inhibition in complex human specimens, we developed a power-free sample processing system specifically designed for extracting HIV-1 RNA from both whole blood and plasma.Top of FormBottom of FormThis system modifies a commercially available spin-column protocol by integrating a syringe device and handheld bulb dryer, thus eliminating the requirement for a centrifuge. The adaptation allows for the completion of the entire extraction procedure, encompassing viral lysis, RNA capture, washing, and elution of purified HIV-1 RNA, within a timeframe of less than 16 minutes. Subsequent analyses, including RT-LAMP and RT-qPCR, demonstrate a limit of detection of 100 copies per μL and an average RNA recovery of 32% (for blood) and 70% (for plasma) in the elution fraction. Further investigations emphasize the significant presence of purified RNA in the spin column volume (termed as dead volume), and the cumulative recovered RNA copies align with those obtained using the gold standard centrifugation extraction method. Ultimately, we incorporated the real-time quantitative PD-RT-LAMP assay onto a field-compatible handheld portable platform suitable for field use, featuring built-in quality control measures. This platform enables sample-to-answer viral load testing near the point of care (POC). Subsequently, we undertook essential preparatory steps, such as reagent drying to obviate the need for cold storage, initial device calibration, and hands-on training of laboratory personnel regarding device operation, to validate device performance within a cohort of individuals living with HIV (PLHIV). These innovations facilitate quick and comprehensive viral load determination, offering promise for enhanced HIV management and patient care</p> Biomedical instrumentation Medical devices particle diffusometry HIV viral load monitoring quantitative nucleic acid amplification whole blood nucleic acid extraction internal control
33	Contribution de la forme nucléaire de l'uracile DNA glycosylase aux étapes précoces du cycle de réplication du virus de l'immunodéficience humaine de type 1 / Contribution of the nuclear form of the uracil DNA glycosylase during early steps of HIV-1 replication cycle Hérate, Cécile 06 July 2015 (has links) La protéine auxiliaire Vpr du VIH-1 est exprimée tardivement au cours de la réplication virale. Toutefois, du fait de son encapsidation dans les particules virales, elle joue un rôle important dès les étapes initiales du cycle de réplication viral. Cette protéine de 96 acides aminés intervient en effet au cours de la rétrotranscription du génome viral puis de la translocation de l’ADN viral vers le noyau de la cellule hôte. Parallèlement, elle provoque un arrêt du cycle cellulaire et l’apoptose des lymphocytes T infectés. Alors qu’il a été établi que Vpr participait au contrôle de la fidélité de la rétrotranscription via le recrutement au sein des particules virales de l’uracile DNA glycosylase 2 (UNG2), enzyme impliquée dans les processus de réparation de l’ADN, certaines études ont ensuite remis en question l’impact positif de l’encapsidation de l’UNG2 sur la réplication virale. Les travaux présentés ici permettent de confirmer le rôle de l’UNG2 dans le contrôle du taux de mutations au sein de l’ADN synthétisé à partir de l'ARN viral par un mécanisme indépendant de son activité enzymatique, mais lié à des déterminants situés dans la partie N-terminale de la protéine engagée dans le recrutement de la sous-unité p32 du complexe RPA (Replication protein A) (RPA32). Nous avons montré, dans un premier temps, que la production de virus dans des cellules dont les niveaux d'expression de l'UNG2 et de RPA32 étaient diminués se traduisait par une réduction significative du pouvoir infectieux des particules virales et de la synthèse de l’ADN viral. Nous avons ensuite montré que la protéine Vpr est capable de former un complexe tri-moléculaire avec les protéines UNG2 et RPA32, et confirmé l’importance de ces deux protéines cellulaires pour permettre une réplication virale optimale aussi bien dans des lignées cellulaires T que dans les cellules primaires cibles du VIH-1. Même si les macrophages et les PBMCs (cellules mononucléaires du sang périphérique), cellules cibles du VIH-1, expriment des niveaux faibles d’UNG2 et de RPA32, ces protéines cellulaires semblent requises pour permettre une synthèse d'ADN virale suffisante à la réplication optimale du virus dans ces cellules primaires. L’ensemble de ces résultats suggère que le contrôle de la rétrotranscription par Vpr a lieu via le recrutement de deux protéines cellulaires UNG2 et RPA32 permettant la dissémination efficace du VIH-1 dans les cellules cibles primaires. / The HIV-1 auxiliary protein Vpr is expressed during the late steps of the viral replication. However, Vpr is incorporated into HIV-1 viral particles and plays a key role during the initial steps of the viral replication cycle. This 96 amino acids protein is involved in viral genome reverse transcription as well as in viral DNA translocation into the nucleus of the host cell. In parallel, Vpr provokes cell cycle arrest and apoptosis of infected T cells. Previously, it has been well established that Vpr participates in the control of the fidelity of the reverse transcription through the recruitment of the Uracil DNA Glycosylase 2 (UNG2) into the viral particles. UNG2 is an enzyme involved in different DNA repair pathway. However some studies have challenged the positive impact of UNG2 encapsidation for HIV-1 replication. Here, our studies confirm the important role of UNG2 for the control of the mutation rate in the newly synthesized viral DNA by a mechanism independent of its enzymatic activity but dependent to determinants located in the N-terminal domain that is involved in the recruitment of the p32 subunit of the RPA (Replication Protein A) complex (RPA32). First we showed that viruses produced in UNG2 or RPA32 depleted cells present a defect of infectivity and that the reverse transcription step is impaired during the course of infection of these viruses. Then we reported that the Vpr protein is able to form a trimolecular complex with UNG2 and RPA32 and we confirmed the importance of both UNG2 and RPA32 for optimal virus replication in a T cell line as well as in HIV-1 primary target cells. Even though macrophages and PBMCs (Peripheral Blood Mononuclear Cells), target cells of HIV-1, express low level of UNG2 and RPA32, these cellular proteins seem to be required for an efficient viral DNA synthesis leading to an optimal virus replication in primary cells. All these results suggest that Vpr controls the reverse transcription step through the recruitment of two cellular proteins UNG2 and RPA32 which allow the efficient dissemination of HIV-1 in the primary target cells. VIH-1 Vpr Uracile DNA glycosylase (UNG) Replication protein A (RPA) Rétrotranscription Réplication du VIH-1 Macrophages HIV-1 Vpr Uracil DNA glycosylase (UNG) Replication protein A (RPA) Reverse transcription HIV-1 replication Macrophages 571.98
34	Multimarker Analysis of Circulating Tumor Cells in Peripheral Blood of Metastatic Breast Cancer Patients: A Step Forward in Personalized Medicine Albuquerque, Andreia de, Kaul, Sepp, Breier, Georg, Krabisch, Petra, Fersis, Nikos 05 March 2014 (has links) (PDF) Aim: To develop an immunomagnetic assay for the isolation of circulating tumor cells (CTCs) followed by the analysis of a multimarker panel, which will enable the characterization of these malignant cells with high accuracy. Patients and Methods: Peripheral blood (PB) was collected from 32 metastatic breast cancer patients and 42 negative controls. The antibodies BM7 and VU1D9 were used for immunomagnetic tumor cell enrichment. A real-time reverse transcription-polymerase chain reaction (RT-PCR) approach for the markers KRT19, SCGB2A2, MUC1, EPCAM, BIRC5 and ERBB2 was used for CTC detection and characterization. Results: The positivity rates for each marker were as follows: 46.9% for KRT19, 25.0% for SCGB2A2, 28.1% for MUC1, 28.1% for EPCAM, 21.9% for BIRC5, and 15.6% for ERBB2. After the creation of individualized cutoffs, the sensitivity and specificity of the combined marker gene panel increased to 56.3% and 100%, respectively. Interestingly, 27.0% of the HER2-negative tumor patients showed ERBB2 mRNA-positive CTCs. Conclusions: The described technique can be used to measure CTCs with great accuracy. The use of a multimarker panel for the characterization of CTCs may provide real-time information and be of great value in therapy monitoring. / Ziel: Entwicklung eines immunomagnetischen Verfahrens zur Isolierung zirkulierender Tumorzellen (CTCs) in Kombination mit einer molekularen Multimarkeranalyse für die hochspezifische Identifizierung maligner Zellen. Patientinnen und Methoden: Peripheres Blut (PB) von 32 Patientinnen mit metastasiertem Mammakarzinom und von 42 gesunden Kontrollen wurde für die immunomagnetische Tumorzellanreicherung mit den Antikörpern BM7 und VU1D9 genutzt. Eine Real-Time Reverse Transkription Polymerase-Kettenreaktion (RT-PCR)-Methodik mit den Markern KRT19, SCGB2A2, MUC1, EPCAM, BIRC5 und ERBB2 wurde für den CTC-Nachweis und die Tumorzellcharakterisierung entwickelt. Ergebnisse: Für die einzelnen Marker wurden die folgenden Positivitätsraten ermittelt: 46,9% für KRT19, 25,0% für SCGB2A2, 28,1% für MUC1, 28,1% für EPCAM, 21,9% für BIRC5 und 15,6% für ERBB2. Nach der Bestimmung individualisierter Cut-off-Werte ergab sich für den kombinierten Multimarkernachweis eine Sensitivität und Spezifität von 56,3% bzw. 100%. Bemerkenswert war der Befund, dass 27,0% der HER2-tumornegativen Patientinnen ERBB2-mRNA-positive CTCs aufwiesen. Schlussfolgerung: Die hier beschriebene Methodik bestimmt CTCs mit hoher Spezifität. Die molekulare Multimarkeranalyse liefert wertvolle Real-Time-Informationen für personalisierte Behandlungsmodalitäten. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. Tumorzellen zirkulierende Mammakarzinom metastatisches Immunomagnetische Zellisolierung Genexpressionsanalyse Circulating tumor cells Metastatic breast cancer Immunomagnetic separation Gene expression analysis ddc:610 rvk:XA 10000
35	Contribution de la forme nucléaire de l'uracile DNA glycosylase aux étapes précoces du cycle de réplication du virus de l'immunodéficience humaine de type 1 / Contribution of the nuclear form of the uracil DNA glycosylase during early steps of HIV-1 replication cycle Hérate, Cécile 06 July 2015 (has links) La protéine auxiliaire Vpr du VIH-1 est exprimée tardivement au cours de la réplication virale. Toutefois, du fait de son encapsidation dans les particules virales, elle joue un rôle important dès les étapes initiales du cycle de réplication viral. Cette protéine de 96 acides aminés intervient en effet au cours de la rétrotranscription du génome viral puis de la translocation de l’ADN viral vers le noyau de la cellule hôte. Parallèlement, elle provoque un arrêt du cycle cellulaire et l’apoptose des lymphocytes T infectés. Alors qu’il a été établi que Vpr participait au contrôle de la fidélité de la rétrotranscription via le recrutement au sein des particules virales de l’uracile DNA glycosylase 2 (UNG2), enzyme impliquée dans les processus de réparation de l’ADN, certaines études ont ensuite remis en question l’impact positif de l’encapsidation de l’UNG2 sur la réplication virale. Les travaux présentés ici permettent de confirmer le rôle de l’UNG2 dans le contrôle du taux de mutations au sein de l’ADN synthétisé à partir de l'ARN viral par un mécanisme indépendant de son activité enzymatique, mais lié à des déterminants situés dans la partie N-terminale de la protéine engagée dans le recrutement de la sous-unité p32 du complexe RPA (Replication protein A) (RPA32). Nous avons montré, dans un premier temps, que la production de virus dans des cellules dont les niveaux d'expression de l'UNG2 et de RPA32 étaient diminués se traduisait par une réduction significative du pouvoir infectieux des particules virales et de la synthèse de l’ADN viral. Nous avons ensuite montré que la protéine Vpr est capable de former un complexe tri-moléculaire avec les protéines UNG2 et RPA32, et confirmé l’importance de ces deux protéines cellulaires pour permettre une réplication virale optimale aussi bien dans des lignées cellulaires T que dans les cellules primaires cibles du VIH-1. Même si les macrophages et les PBMCs (cellules mononucléaires du sang périphérique), cellules cibles du VIH-1, expriment des niveaux faibles d’UNG2 et de RPA32, ces protéines cellulaires semblent requises pour permettre une synthèse d'ADN virale suffisante à la réplication optimale du virus dans ces cellules primaires. L’ensemble de ces résultats suggère que le contrôle de la rétrotranscription par Vpr a lieu via le recrutement de deux protéines cellulaires UNG2 et RPA32 permettant la dissémination efficace du VIH-1 dans les cellules cibles primaires. / The HIV-1 auxiliary protein Vpr is expressed during the late steps of the viral replication. However, Vpr is incorporated into HIV-1 viral particles and plays a key role during the initial steps of the viral replication cycle. This 96 amino acids protein is involved in viral genome reverse transcription as well as in viral DNA translocation into the nucleus of the host cell. In parallel, Vpr provokes cell cycle arrest and apoptosis of infected T cells. Previously, it has been well established that Vpr participates in the control of the fidelity of the reverse transcription through the recruitment of the Uracil DNA Glycosylase 2 (UNG2) into the viral particles. UNG2 is an enzyme involved in different DNA repair pathway. However some studies have challenged the positive impact of UNG2 encapsidation for HIV-1 replication. Here, our studies confirm the important role of UNG2 for the control of the mutation rate in the newly synthesized viral DNA by a mechanism independent of its enzymatic activity but dependent to determinants located in the N-terminal domain that is involved in the recruitment of the p32 subunit of the RPA (Replication Protein A) complex (RPA32). First we showed that viruses produced in UNG2 or RPA32 depleted cells present a defect of infectivity and that the reverse transcription step is impaired during the course of infection of these viruses. Then we reported that the Vpr protein is able to form a trimolecular complex with UNG2 and RPA32 and we confirmed the importance of both UNG2 and RPA32 for optimal virus replication in a T cell line as well as in HIV-1 primary target cells. Even though macrophages and PBMCs (Peripheral Blood Mononuclear Cells), target cells of HIV-1, express low level of UNG2 and RPA32, these cellular proteins seem to be required for an efficient viral DNA synthesis leading to an optimal virus replication in primary cells. All these results suggest that Vpr controls the reverse transcription step through the recruitment of two cellular proteins UNG2 and RPA32 which allow the efficient dissemination of HIV-1 in the primary target cells. VIH-1 Vpr Uracile DNA glycosylase (UNG) Replication protein A (RPA) Rétrotranscription Réplication du VIH-1 Macrophages HIV-1 Vpr Uracil DNA glycosylase (UNG) Replication protein A (RPA) Reverse transcription HIV-1 replication Macrophages 571.98
36	Contribution de la forme nucléaire de l'uracile DNA glycosylase aux étapes précoces du cycle de réplication du virus de l'immunodéficience humaine de type 1 / Contribution of the nuclear form of the uracil DNA glycosylase during early steps of HIV-1 replication cycle Hérate, Cécile 06 July 2015 (has links) La protéine auxiliaire Vpr du VIH-1 est exprimée tardivement au cours de la réplication virale. Toutefois, du fait de son encapsidation dans les particules virales, elle joue un rôle important dès les étapes initiales du cycle de réplication viral. Cette protéine de 96 acides aminés intervient en effet au cours de la rétrotranscription du génome viral puis de la translocation de l’ADN viral vers le noyau de la cellule hôte. Parallèlement, elle provoque un arrêt du cycle cellulaire et l’apoptose des lymphocytes T infectés. Alors qu’il a été établi que Vpr participait au contrôle de la fidélité de la rétrotranscription via le recrutement au sein des particules virales de l’uracile DNA glycosylase 2 (UNG2), enzyme impliquée dans les processus de réparation de l’ADN, certaines études ont ensuite remis en question l’impact positif de l’encapsidation de l’UNG2 sur la réplication virale. Les travaux présentés ici permettent de confirmer le rôle de l’UNG2 dans le contrôle du taux de mutations au sein de l’ADN synthétisé à partir de l'ARN viral par un mécanisme indépendant de son activité enzymatique, mais lié à des déterminants situés dans la partie N-terminale de la protéine engagée dans le recrutement de la sous-unité p32 du complexe RPA (Replication protein A) (RPA32). Nous avons montré, dans un premier temps, que la production de virus dans des cellules dont les niveaux d'expression de l'UNG2 et de RPA32 étaient diminués se traduisait par une réduction significative du pouvoir infectieux des particules virales et de la synthèse de l’ADN viral. Nous avons ensuite montré que la protéine Vpr est capable de former un complexe tri-moléculaire avec les protéines UNG2 et RPA32, et confirmé l’importance de ces deux protéines cellulaires pour permettre une réplication virale optimale aussi bien dans des lignées cellulaires T que dans les cellules primaires cibles du VIH-1. Même si les macrophages et les PBMCs (cellules mononucléaires du sang périphérique), cellules cibles du VIH-1, expriment des niveaux faibles d’UNG2 et de RPA32, ces protéines cellulaires semblent requises pour permettre une synthèse d'ADN virale suffisante à la réplication optimale du virus dans ces cellules primaires. L’ensemble de ces résultats suggère que le contrôle de la rétrotranscription par Vpr a lieu via le recrutement de deux protéines cellulaires UNG2 et RPA32 permettant la dissémination efficace du VIH-1 dans les cellules cibles primaires. / The HIV-1 auxiliary protein Vpr is expressed during the late steps of the viral replication. However, Vpr is incorporated into HIV-1 viral particles and plays a key role during the initial steps of the viral replication cycle. This 96 amino acids protein is involved in viral genome reverse transcription as well as in viral DNA translocation into the nucleus of the host cell. In parallel, Vpr provokes cell cycle arrest and apoptosis of infected T cells. Previously, it has been well established that Vpr participates in the control of the fidelity of the reverse transcription through the recruitment of the Uracil DNA Glycosylase 2 (UNG2) into the viral particles. UNG2 is an enzyme involved in different DNA repair pathway. However some studies have challenged the positive impact of UNG2 encapsidation for HIV-1 replication. Here, our studies confirm the important role of UNG2 for the control of the mutation rate in the newly synthesized viral DNA by a mechanism independent of its enzymatic activity but dependent to determinants located in the N-terminal domain that is involved in the recruitment of the p32 subunit of the RPA (Replication Protein A) complex (RPA32). First we showed that viruses produced in UNG2 or RPA32 depleted cells present a defect of infectivity and that the reverse transcription step is impaired during the course of infection of these viruses. Then we reported that the Vpr protein is able to form a trimolecular complex with UNG2 and RPA32 and we confirmed the importance of both UNG2 and RPA32 for optimal virus replication in a T cell line as well as in HIV-1 primary target cells. Even though macrophages and PBMCs (Peripheral Blood Mononuclear Cells), target cells of HIV-1, express low level of UNG2 and RPA32, these cellular proteins seem to be required for an efficient viral DNA synthesis leading to an optimal virus replication in primary cells. All these results suggest that Vpr controls the reverse transcription step through the recruitment of two cellular proteins UNG2 and RPA32 which allow the efficient dissemination of HIV-1 in the primary target cells. VIH-1 Vpr Uracile DNA glycosylase (UNG) Replication protein A (RPA) Rétrotranscription Réplication du VIH-1 Macrophages HIV-1 Vpr Uracil DNA glycosylase (UNG) Replication protein A (RPA) Reverse transcription HIV-1 replication Macrophages 571.98
37	Excreção cervicovaginal do vírus da imunodeficiência humana (HIV) ao longo do ciclo menstrual em mulheres soropositivas acompanhadas em serviço especializado de São Paulo / Human immunodeficiency virus (HIV) cervicovaginal shedding during the menstrual cycle in seropositive women followed at a specialized care center in São Paulo Carla Andreia Baggetti Ferraz de Lima 14 January 2008 (has links) A via sexual é a principal forma de transmissão inter-humana da infecção pelo vírus da imunodeficiência humana (HIV). Com o incremento do número de mulheres infectadas por esse agente retroviral, o estudo de particularidades da biologia do vírus no trato genital feminino adquiriu maior importância. Com o objetivo de avaliar a excreção genital do HIV ao longo do ciclo menstrual, coletaram-se, nas diversas fases de dois ciclos, lavados cervicovaginais de 17 mulheres soropositivas para essa infecção e acompanhadas em serviço ambulatorial especializado de São Paulo. O RNA viral livre foi quantificado por RT-PCR e o DNA proviral por PCR em tempo real, empregando sistema TaqMan. Avaliou-se ainda a carga viral plasmática de HIV, o número de células CD4+ periféricas e presença de co-infecção genital. Detectou-se excreção de RNA-HIV e de DNA proviral, respectivamente, em 18,8% e 31,3% das pacientes. Todas as pacientes que apresentaram excreção de RNA viral também exibiram a de DNA proviral, incluindo paciente com viremia de HIV indetectável. Não houve variação significativa da excreção genital do vírus durante o ciclo menstrual. Em 6 dessas pacientes, que apresentaram co-infecção genital previamente à admissão no estudo, avaliou-se também a excreção genital de HIV quando da co-infecção. Em 2 casos, a excreção genital do DNA-HIV foi superior na vigência de co-infecção causada por Streptococcus sp e Ureaplasma. Não se observou excreção de RNA viral livre nas pacientes co-infectadas. Os resultados obtidos podem contribuir para o entendimento do potencial de transmissibilidade sexual da infecção por HIV e reiteram a necessidade de adesão às práticas de sexo protegido para evitar sua transmissão inter-humana / The sexual route is the main means of transmission of the human immunodeficiency virus (HIV). With the increasing numbers of HIV-infected women, the investigation of particular biological features of HIV infection in the genital tract has become more important. To evaluate HIV genital shedding during the menstrual cycle, we collected cervicovaginal lavages (CVL) from 17 women, assisted at an HIV outpatient clinic in São Paulo, in different hormonal phases during 2 cycles. HIV-RNA and proviral DNA shedding were quantified using RT-PCR and a TaqMan real-time PCR assay, respectively. In addition, patients were screened for genital coinfections and had their HIV plasma viral loads and CD4+ cell counts assessed. Cell-free HIV-RNA and proviral DNA shedding were found in 18.8% and 31.3% of women. All patients who shed HIV-RNA were also shown to present detectable proviral DNA in their CVL, including one woman with undetectable HIV plasma viral load. No significant difference in viral shedding was seen among menstrual cycle phases. Six patients from the cohort, who exhibited genital coinfections previous to admission to the study, had their HIV genital shedding compared at time of coinfection and after its resolution. In two of them proviral DNA shedding was higher at the time of coinfection, caused by Streptococcus sp and Ureaplasma. No cell-free HIV-RNA shedding was detected in coinfected patients. Our results may contribute to the understanding of HIV sexual infectivity from women and emphasize the need for adherence to protected sexual practices in order to avoid viral transmission. Ciclo menstrual DNA Eliminação de partículas virais HIV Infecções por HIV Provírus RNA DNA HIV HIV infections Menstrual cycle Provirus RNA Viral shedding
38	Excreção cervicovaginal do vírus da imunodeficiência humana (HIV) ao longo do ciclo menstrual em mulheres soropositivas acompanhadas em serviço especializado de São Paulo / Human immunodeficiency virus (HIV) cervicovaginal shedding during the menstrual cycle in seropositive women followed at a specialized care center in São Paulo Lima, Carla Andreia Baggetti Ferraz de 14 January 2008 (has links) A via sexual é a principal forma de transmissão inter-humana da infecção pelo vírus da imunodeficiência humana (HIV). Com o incremento do número de mulheres infectadas por esse agente retroviral, o estudo de particularidades da biologia do vírus no trato genital feminino adquiriu maior importância. Com o objetivo de avaliar a excreção genital do HIV ao longo do ciclo menstrual, coletaram-se, nas diversas fases de dois ciclos, lavados cervicovaginais de 17 mulheres soropositivas para essa infecção e acompanhadas em serviço ambulatorial especializado de São Paulo. O RNA viral livre foi quantificado por RT-PCR e o DNA proviral por PCR em tempo real, empregando sistema TaqMan. Avaliou-se ainda a carga viral plasmática de HIV, o número de células CD4+ periféricas e presença de co-infecção genital. Detectou-se excreção de RNA-HIV e de DNA proviral, respectivamente, em 18,8% e 31,3% das pacientes. Todas as pacientes que apresentaram excreção de RNA viral também exibiram a de DNA proviral, incluindo paciente com viremia de HIV indetectável. Não houve variação significativa da excreção genital do vírus durante o ciclo menstrual. Em 6 dessas pacientes, que apresentaram co-infecção genital previamente à admissão no estudo, avaliou-se também a excreção genital de HIV quando da co-infecção. Em 2 casos, a excreção genital do DNA-HIV foi superior na vigência de co-infecção causada por Streptococcus sp e Ureaplasma. Não se observou excreção de RNA viral livre nas pacientes co-infectadas. Os resultados obtidos podem contribuir para o entendimento do potencial de transmissibilidade sexual da infecção por HIV e reiteram a necessidade de adesão às práticas de sexo protegido para evitar sua transmissão inter-humana / The sexual route is the main means of transmission of the human immunodeficiency virus (HIV). With the increasing numbers of HIV-infected women, the investigation of particular biological features of HIV infection in the genital tract has become more important. To evaluate HIV genital shedding during the menstrual cycle, we collected cervicovaginal lavages (CVL) from 17 women, assisted at an HIV outpatient clinic in São Paulo, in different hormonal phases during 2 cycles. HIV-RNA and proviral DNA shedding were quantified using RT-PCR and a TaqMan real-time PCR assay, respectively. In addition, patients were screened for genital coinfections and had their HIV plasma viral loads and CD4+ cell counts assessed. Cell-free HIV-RNA and proviral DNA shedding were found in 18.8% and 31.3% of women. All patients who shed HIV-RNA were also shown to present detectable proviral DNA in their CVL, including one woman with undetectable HIV plasma viral load. No significant difference in viral shedding was seen among menstrual cycle phases. Six patients from the cohort, who exhibited genital coinfections previous to admission to the study, had their HIV genital shedding compared at time of coinfection and after its resolution. In two of them proviral DNA shedding was higher at the time of coinfection, caused by Streptococcus sp and Ureaplasma. No cell-free HIV-RNA shedding was detected in coinfected patients. Our results may contribute to the understanding of HIV sexual infectivity from women and emphasize the need for adherence to protected sexual practices in order to avoid viral transmission. Ciclo menstrual DNA DNA Eliminação de partículas virais HIV HIV HIV infections Infecções por HIV Menstrual cycle Provirus Provírus RNA RNA Viral shedding
39	GABA and glycine co-transmission in the developing mouse respiratory network Rahman, Md Jamilur 02 April 2014 (has links) No description available. 570 Respiratory network pre-Bötzinger complex co-transmission co-release GABA and glycine VIAAT GLYT2 mIPSC mixed-mIPSC brainstem medulla Respiration Breathing Diaphragm Embryonic development Single cell PCR Immunostaining Reverse transcription PCR Biologie (PPN619462639)
40	The molecular characterization of South African isolates of Grapevine Rupestris Stem Pitting-associated virus (GRSPaV) Noach, Liesl Christine 12 1900 (has links) Thesis (MSc (Genetics))--University of Stellenbosch, 2010. / Includes bibliography. / ENGLISH ABSTRACT: The first aim of this study was to reliably and rapidly detect Grapevine rupestris stem pittingassociated virus (GRSPaV) in grapevine. This was achieved by screening 94 grapevines using crude plant extracts in both quantitative and conventional reverse transcription polymerase chain reaction (RT-PCR). The second aim was to establish a technique capable of differentiating GRSPaV sequence variants. The application of this technique is for the largescale screening of diseased vines to associate sequence variants of GRSPaV with disease symptoms. Nested quantitative polymerase chain reaction and high resolution melting assays (qPCR-HRM) were developed for three regions of the GRSPaV genome (coat protein, RNAdependant RNA-polymerase and triple gene block movement protein). The qPCR-HRM technique using the high saturation dye, EvaGreen™, and the Rotor-Gene™ 6000 analyzer was validated with a panel of sixteen sequence-characterized viral isolates. Diluted RT-PCR products and cloned cDNA gave the most consistent amplification plots and dissociation profiles. RT-PCR products generated from total RNA extracts were used as template for qPCR-HRM assays and for direct sequencing of sixteen samples in the three aforementioned regions. The average amplification efficiency for qPCR was 1.52±0.04. Auto-calling of userdefine genotypes was performed at a confidence interval of 70%. Phylogenetic analysis of the three regions of the GRSPaV genome was performed with published GenBank sequences to confirm the HRM data. The dominant sequence variants found in the South African sample set radiated with Group II, reference full-length variant GRSPaV-SG1. GRSPaV-infected samples can in future be subjected to qPCR-HRM assays developed during this study. This can be performed to establish similarity to known genotypes and therefore phylogenetic groups. Mixed infection of sequence variants and quasi-species were a common occurrence. The assay will be useful in establishing correlation of specific genotypes to different phenotypical expression of viral disease. This could provide insight into the etiology of diseases associated with GRSPaV. / AFRIKAANSE OPSOMMING: Die eerste doel van hierdie studie was om die virus wat met Rupestris-stamverpitting (Grapevine rupestris stem pitting-associated virus of “GRSPaV”) in wingerd verbind is, vinnig en betroubaar op te spoor. Dit is bereik deur 94 wingerdstokke vir die teenwoordigheid van die virus te toets met beide kwantitatiewe en konvensionele trutranskripsie polimerase kettingreaksies (RT - PCR) vanaf ongesuiwerde plant-ekstraksies. Die tweede doel was die daarstelling van ’n tegniek om onderskeid te tref tussen variante van GRSPaV met verskillende nukleotiedvolgordes. Hierdie tegniek kan op groot skaal gebruik word om ge-affekteerde wingerdstokke te toets om sodoende siektesimptome met spesifieke variante van GRSPaV te verbind. Ge-neste kwantitatiewe polimerase-kettingreaksies (qPCR) en hoë-resolusie smelt-analises (HRM) is ontwikkel vir drie streke van die GRSPaV-genoom (mantelproteïen, RNS-afhanklike RNS-polimerase en trippelgeenblok bewegingsproteïen). Die tegniek van qPCR-HRM met die hoë-versadingingskleurstof EvaGreen™ en die Rotor- Gene™ 6000 ontleder se geldigheid is bevestig deur vergelyking met ’n paneel van sestien virus-isolate waarvan die volgorde reeds bepaal is. Verdunde RT-PCR-produkte en gekloneerde DNS het die mees konsekwente amplifikasie-uitstipping en dissosiasieprofiele opgelewer. RT-PCR-produkte wat vanuit totale RNS-ekstrakte verkry is, is as templaat vir qPCR-HRM-analises gebruik. Dieselfde produkte is ook gebruik, om die volgorde van sestien monsters in drie streke direk te bepaal. Die gemiddelde amplifikasiedoeltreffendheid van die qPCR was 1.52±0.04. Gebruiker-gedefinieerde genotipes is deur middel van outooproeping teen ’n vertroue-interval van 70% uitgevoer. Filogenetiese analises vir drie streke van die GRSPaV-genoom is uitgevoer met gepubliseerde GenBank-volgordes om die HRMdata te bevestig. Die dominante volgorde-variante in die stel Suid-Afrikaanse monsters het ooreengestem met Groep II, vollengte-verwysingsvariant GRSPaV-SG1. Monsters wat met GRSPaV besmet is kan in die toekoms onderwerp word aan die qPCR-HRM-analises wat in hierdie studie ontwikkel is. Dit kan uitgevoer word om ooreenkomste met bekende genotipes te bepaal, en dus ook met filogenetiese groepe. Die besmetting van plante met meer as een volgorde-variant het algemeen voorgekom. Die kwasi-spesies populasie-struktuur van die virus het ook gedurig na vore gekom. Die toets sal nuttig wees in die bepaling van korrelasies tussen spesifieke genotipes en verskillende fenotipiese voorkomste van virussiektes. Dit kan insig verleen in die etiologie van siektes wat met GRSPaV verbind word. Rugose wood Flexiviridae High resolution melt analysis qRT-PCR Dissertations -- Genetics Theses -- Genetics GRSPaV Virus diseases of plants

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