Diagnóstico molecular de dengue e zika por transcrição reversa seguida da amplificação isotérmica mediada por loop (RT-LAMP) em dispositivo a base de papel / Molecular diagnosis of dengue and zika by reverse transcription loop-mediated isothermal amplification (RT-LAMP) in paper-based device

Fé, Thiago Henrique Moreira da

13 April 2018

Submitted by JÚLIO HEBER SILVA (julioheber@yahoo.com.br) on 2018-06-05T17:44:09Z No. of bitstreams: 2 Dissertação - Thiago Henrique Moreira da Fé - 2018.pdf: 1985149 bytes, checksum: 20d3ea58da14d653dfbb18d338dbb1b8 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2018-06-06T11:04:33Z (GMT) No. of bitstreams: 2 Dissertação - Thiago Henrique Moreira da Fé - 2018.pdf: 1985149 bytes, checksum: 20d3ea58da14d653dfbb18d338dbb1b8 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2018-06-06T11:04:33Z (GMT). No. of bitstreams: 2 Dissertação - Thiago Henrique Moreira da Fé - 2018.pdf: 1985149 bytes, checksum: 20d3ea58da14d653dfbb18d338dbb1b8 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2018-04-13 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Dengue and zika are viral infectious diseases occurring in countries with a tropical and subtropical climate in which around 3.6 billion people live. It is estimated that in 50 to 100 million new cases of dengue occur annually, generating economic, social and public health impacts. Dengue and zika have usually been diagnosed by serological methods which are generally of low confidence, as they can generate false-positive results, which are related to the presence of antibodies produced against previous infections of the virus. The molecular methods are more accurate, however the molecular method most commonly used (PCR) requires a long time of reaction and requires sophisticated instrumentation and high cost, making point of care applications difficult,, especially in developing countries. This work presents the development of a molecular diagnostic methodology in a paper-based platform that allowed the detection of the virus through the reverse transcription -loop mediated isothermal amplification (RT-LAMP). The reactions were carried out on 6 mm diameter FTA paper discs, confined in a multi-layered polyester-toner device, incubated at 65 ° C for 45 minutes in a dry bath and then performed visual detection using the SYBR Green intercalator. Positive reactions were identified by the green fluorescence emitted after the addition of the intercalator. The results were recorded through the capture of the images by a photodocumentator and/or by smartphone and later analyzed by the software ImageJ, allowing the comparison between negative and positive reactions. The methodology developed for the detection of the virus by RT-LAMP in paper substrate was sensitive, being able to detect the virus in initial concentrations of 0.1 pg μL -1 of RNA in the master mixture. In addition, it was possible to detect the virus directly in complex samples (serum of infected patients) without the need of previous viral RNA extraction step. Elimination of the RNA extraction step together with the visual detection on the paper produce the final result in 46 minutes. The results demonstrated that the detection of the virus by RT-LAMP in paper substrates is a valuable tool for the molecular diagnosis of infectious diseases, presenting great potential for point-of-care applications for both diagnostics and epidemiological studies, especially in developing countries. / A dengue e a zika são doenças infecciosas virais de ocorrência nos países de clima tropical e subtropical no qual vivem cerca de 3,6 bilhões de pessoas, estimando-se, no caso da dengue, que 50 a 100 milhões de novos casos da doença ocorram anualmente, gerando impactos econômicos, sociais e de saúde pública. A dengue e a zika têm sido usualmente diagnosticadas por métodos sorológicos que são em geral de baixa confiança, pois podem gerar resultados falso-positivos, que estão relacionados à presença de anticorpos produzidos contra infecções anteriores do vírus. Os métodos moleculares são mais precisos, porém o método molecular mais utilizado atualmente (PCR) requer longo tempo de realização e necessita de instrumentação sofisticada e de alto custo, dificultando sua aplicação no ponto de atendimento, especialmente em países em desenvolvimento. Este trabalho apresenta o desenvolvimento de uma metodologia de diagnóstico molecular em uma plataforma a base de papel que permitiu a detecção do vírus por meio da reação de transcrição reversa seguida pela amplificação isotérmica mediada por loop (RTLAMP). As reações foram realizadas em discos de papel FTA com 6 mm de diâmetro, confinado em dispositivo multicamadas de poliéster-toner, incubados à 65 °C por 45 minutos em banho seco e posteriormente realizado a detecção visual onchip, através da utilização do intercalador SYBR Green. As reações positivas foram identificadas pela fluorescência verde emitida após a adição do intercalador. Os resultados foram registrados por meio da captura das imagens por uma fotodocumentadora e/ou por câmera de celular e posteriormente analisados pelo software ImageJ, permitindo a comparação entre reações negativas e positivas. A metodologia desenvolvida para a detecção do vírus por RT-LAMP em substrato de papel apresentou-se sensível, sendo capaz de detectar o vírus em concentrações iniciais de 0,1 pg µL-1 de RNA na mistura reacional. Além disso, foi possível detectar o vírus diretamente em amostras complexas (soro de pacientes infectados) sem a necessidade da etapa prévia de extração do RNA viral. A eliminação da etapa de extração do RNA juntamente com a realização da detecção visual no próprio papel proporcionou a obtenção do resultado final em 46 minutos. Os resultados demonstraram que a detecção do vírus por RT-LAMP em substrato de papel é uma importante ferramenta para o diagnóstico molecular de doenças infecciosas, apresentando grande potencial para aplicações no ponto de atendimento tanto para diagnósticos quanto para estudos epidemiológicos, especialmente em países em desenvolvimento.

Dengue

Zika

Diagnostico molecular

RT-LAMP

Dengue

Zika

Molecular diagnosis

RT-LAMP

CIENCIAS EXATAS E DA TERRA::QUIMICA

DEVELOPMENT AND APPLICATION OF NOVEL QUANTITATIVE AND QUALITATIVE MOLECULAR TECHNIQUES FOR DETECTION OF INFECTIOUS MYONECROSIS VIRUS (IMNV) IN PACIFIC WHITE SHRIMP LITOPENAEUS VANNAMEI

Andrade, Thales Passos de

January 2009

Infectious myonecrosis, caused by infectious myonecrosis virus (IMNV), is an important disease of shrimp that has adversely affected the production of cultured Litopenaeus vannamei. The studies reported here were centered on development and/or validation of alternative diagnostic methods for detection of IMNV. Hence, two manuscripts were published in the Journal of Aquaculture and one manuscript was published in the Journal of Fish Diseases. Chapter 2 describes the development of a real-time reverse transcription polymerase chain reaction (real-time RT-PCR) method using TaqMan probe. The results showed that this real-time RT-PCR assay can detect as little as 10 IMNV copies/μl RNA, while the nested RT-PCR can detect 1000 copies/μl RNA. These findings suggest that the TaqMan real-time RT-PCR is “the gold standard” for screening shrimp to protect aquaculture production systems from losses caused by IMNV, because it provides quantification, higher sensitivity and specificity, and because it is less time consuming and less prone to contamination compared to conventional gel-based RT-PCR. In Chapter 3 I evaluated if prolonged storage of infectious myonecrosis virus (IMNV) infected shrimp in Davidson’s AFA fixative can degrade its double-stranded RNA genome resulting in false negative ISH reactions. Shrimp were collected at Day 12 post-injection and fixed in Davidson’s AFA for five different preservation times (1, 2, 4, 7 and 10 days). Hence, in the present report it was found that the length of time (up to 10 days) in Davidson’s AFA did not have a deleterious effect on the ISH reaction for IMNV. The Chapter 4 describes the development of a reverse transcription loop-mediated isothermal amplification and nucleic acid lateral flow (RT-LAMP-NALF) for detection of IMNV. The RT-LAMP-NALF method combines simplified nucleic acid extraction, a reverse-transcription loop-mediated isothermal amplification platform, and one-step visual colorimetric confirmation of the IMNV amplified sequences using a generic NALF qualitative detection test strip. The RT-LAMP-NALF was found to be 100 and 10 times more sensitive than one-step RT-PCR and RT-LAMP (two primer pairs), respectively. These results clearly demonstrate that the RT-LAMP-NALF method is specific, sensitive, can shorten the time for analysis, and has potential application for IMNV diagnosis in resource-poor diagnostic settings.

IMNV

in situ hybridization

INFECTIOUS MYONECROSIS VIRUS

Litopenaeus vannamei

Real-time RT-PCR

RT-LAMP-NALF

Design and Selection of RT-LAMP Primer Sets Targeting SARS-CoV-2 in Complex Human Samples

Josiah Levi Davidson (10723713)

29 April 2021

<p>Loop-mediated Isothermal Amplification (LAMP) is a promising technology to address diagnostic and surveillance testing during public health crises, such as the current COVID-19 pandemic; however, primer design and assay optimization remain a barrier to enabling rapid deployment of assays based on LAMP. Herein, we introduce a design and screening process that allows for strategic determination of optimally performing primer sets and standardized assay conditions which enable execution of LAMP at point-of-care (POC) settings using complex human samples such as saliva. A total of 20 primer sets targeting the N, E, RdRP, and orf1ab genes of the SARS-CoV-2 were designed, screened, and selected based on performance metrics such as reaction time, sensitivity, and specificity. Of these 20 primer sets, only two primer sets (orf1ab.2 and orf1ab.4) proved to be viable for use in the final assay. Colorimetric RT-LAMP of the selected primer set, orf1ab.2 was shown to produce a distinct color change in contrived samples containing heat-inactivated SARS-CoV-2 in 5% saliva. The limit of detection of our assay using primer set orf1ab.2 was determined to be 1000 copies/µL of saliva collected. Furthermore, methods are introduced which allow for the high-throughput design of LAMP primers using standard software tools and the <i>in-silico</i> performance of LAMP primer sets. </p>

Biological Engineering

Biological Techniques

SARS-CoV-2

rt-lamp

LAMP primer design

Detección y caracterización del virus meridional del tomate (STV)

Elvira González, Laura

13 April 2021

[ES] El virus meridional del tomate (Southern tomato virus, STV) es un virus persistente (género Amalgavirus, familia Amalgaviridae) que se ha detectado en diversos países como España e Italia. Inicialmente, fue asociado a síntomas de decoloración y falta de maduración en el fruto de tomate. Sin embargo, la presencia frecuente de virus agudos en las plantas infectadas con el STV y la detección de éste en plantas asintomáticas, ponen en duda su patogenicidad y el impacto que puede tener en el cultivo. En esta tesis doctoral se puso a punto la RT-LAMP y la RT-qPCR para la detección específica y sensible del STV. La RT-LAMP permitió reducir costes y simplificar el procedimiento, siendo útil para la detección en campo. La RT-qPCR nos permitió detectar y cuantificar el STV en distintos tipos de tejidos de tomate, incluyendo semillas individuales. El virus se acumulaba principalmente en las raíces y hojas, y en las semillas se encontraba tanto en cubierta como en embrión, lo que dificulta las tareas de desinfección. La tasa de transmisión por semilla del virus, la incidencia en campo y en viveros era muy elevada, afectando más a variedades comerciales que locales. Los análisis filogenéticos mostraron que el STV tenía una baja diversidad genética con una fuerte presión de selección negativa. Además, no había una correlación entre distancia genética del virus y origen geográfico debido a una rápida dispersión de semillas infectadas y/o una fuerte presión de selección negativa. Se comprobó que el STV en condiciones de infección simple no inducía síntomas, no alteraba la producción, ni afectaba a parámetros fisiológicos como conductividad estomática, fotosíntesis y peso, en condiciones de estrés salino. Tampoco se observaron cambios a nivel tisular ni celular, ni se encontraron partículas virales. Sin embargo, el virus modificaba la expresión de algunos miRNAs con importantes funciones. Se detectaron muy poca cantidad de vsiRNAs derivados del STV, lo cual podría deberse a la supresión del silenciamiento génico de la planta por acción de un supresor codificado por el virus. Los ensayos de expresión transitoria en plantas de N. benthamiana 16C determinaron que la p42 del STV no tenía actividad supresora de silenciamiento génico. Finalmente, estudiamos el efecto del STV en infecciones múltiples con otros virus agudos como el CMV y el PepMV. Se observaron complejas interacciones entre los virus que implicaban variaciones en la severidad de síntomas, en los niveles de acumulación viral y en las poblaciones de siRNAs. El STV y el CMV establecían una interacción sinérgica que producía el adelanto y aumento de la severidad de los síntomas, y de la acumulación del CMV en las primeras fases de la infección. La presencia del STV en plantas infectadas con el PepMV también producía un adelanto de los síntomas sin cambios en la acumulación viral del PepMV. En las plantas coinfectadas con el CMV y PepMV se observó un efecto antagónico que disminuía la concentración del CMV y alteraba los síntomas. El STV era capaz de romper este efecto antagónico restableciendo la concentración del CMV y modificando los síntomas. Los análisis de siRNAs permitieron identificar un total de 78 miRNAs, 47 noveles, que se expresaban diferencialmente en los grupos de plantas infectadas con los diferentes virus respecto a las plantas sin infectar. Estos miRNAs estaban implicados en la regulación de importantes funciones y tanto su número como su nivel de expresión variaba dependiendo de la combinación viral. También se identificaron vsiRNAs de origen viral y se vio que su proporción variaba dependiendo de la combinación viral. La cantidad de vsiRNAs del STV se incrementaba notablemente con la presencia de otros virus. La frecuencia de acumulación de vsiRNAs en los genomas virales no era uniforme y no se veía influenciada por las combinaciones de virus. / [CA] El virus meridional de la tomaca (Southern tomato virus, STV) és un virus persistent (gènere Amalgavirus, família Amalgaviridae) que s'ha detectat en diversos països com Espanya i Itàlia. Inicialment, STV va ser associat a distints símptomes de decoloració i anomalies en la maduració del fruit. Però la presència freqüent de virus aguts en les plantes infectades amb STV i la detecció d'aqueste en plantes asimptomàtiques, posen en dubte la seua patogenicitat i l'impacte que pot tindre en el cultiu. En aquesta tesi doctoral es va realitzar la posada al punt de la RT-LAMP i la RT- qPCR per a la detecció específica i sensible de STV. La RT-LAMP va permetre reduir costos i simplificar el procediment, sent útil per a la detecció del virus en camp. La RT-qPCR és una tècnica molt sensible que ens va permetre detectar i quantificar STV en distints tipus de teixits, incloent-hi llavors individuals. El virus s'acumulava principalment en arrels i fulles, i en les llavors es trobava tant en la coberta com en l'embrió. Es va comprovar que les taxes de transmissió per llavor, la incidència en camp i en vivers era molt elevada, major en les varietats comercials que en les locals. Els estudis filogenètics realitzats van mostrar que el virus tenia una baixa diversitat genètica amb una forta pressió de selecció negativa. No hi havia una correlació entre distància genètica del virus i origen geogràfic, degut per una ràpida dispersió a traves de llavors infectades i/o a la forta pressió de selecció negativa. En aquest treball es van obtindre evidències de què STV en condicions d'infecció simple no induïa símptomes en la planta, no alterava la producció, ni afectava paràmetres fisiològics com a conductivitat estomacal, fotosíntesi i pes en condicions d'estrés salí. Tampoc, es van observar cap presència de partícules virals ni canvis a nivell tissular ni cel·lular. No obstant això, STV era capaç de modificar l'expressió d'alguns miRNAs amb importants funcions. Es van detectar molt poca quantitat de vsiRNAs derivats del STV, podria deure's a la supressió del mecanisme de silenciamient gènic per acció d'un supressor. Els assajos d'expressió transitòria en plantes de N. benthamiana 16C va determinar que la p42 de STV no va tindre capacitat supressora de silenciamient gènic. Per finalitzar, vam estudiar l'efecte que podia tindre STV en infeccions mixtes amb altres virus aguts com CMV i PepMV. Els resultats obtinguts d'un assaig amb diferents combinacions d'infeccions van mostrar interaccions complexes entre els virus que implicaven variacions en la severitat de símptomes, en els nivells d'acumulació viral i en les poblacions de siRNA. STV i CMV establien una interacció sinèrgica que produïa l'avanç i l'increment dels símptomes, i un augment de l'acumulació de CMV. D'altra banda, la presència de STV en plantes infectades amb PepMV també produïa un avanç dels símptomes, però no hi havia variacions en l'acumulació de PepMV. En el grup de plantes co-infectades amb CMV i PepMV es va observar un efecte antagònic que dificultava la replicació de CMV, alterant-se els símptomes de la planta. STV era capaç de trencar aquest efecte antagònic restaurant la concentració de CMV i modificant els símptomes. Els anàlisis de siRNAs van permetre identificar un total de 78 miRNAs, 47 corresponien a miRNAs novells, que s'expressaven de forma diferent als grups de plantes infectades amb els diversos virus, respecte a les plantes control sense infectar. Aquests miRNAs estaven implicats en la regulació d'importants funcions i tant el seu nombre com el seu nivell d'expressió variaven. També es van identificar vsiRNAs d'origen viral i es va observar que la seua proporció variava depenent de la combinació viral. La quantitat de vsiRNAs de STV s'incrementava notablement amb la presència d'altres virus. Les freqüències de vsiRNA en els genomes virals no eren uniformes, no obstant això, els pat / [EN] Southern tomato virus (STV) is a persistent virus (genus Amalgavirus, family Amalgaviridae) which was detected in several countries such Spain and Italy. STV was associated with symptoms of discoloration and maturation of tomato fruit. However, STV was frequently detected in mixed infections with acute viruses and in some asymptomatic tomato plants. For these reasons, it is not clear the STV pathogenic role and its real impact on tomato crops. In this PhD we improved the specific and sensitive detection of the virus by using the RT-LAMP and RT-qPCR. RT-LAMP is very useful for field STV detection since it is a simple and cheap technique. The high RT-qPCR sensitivity enabled this technique to detect and quantify STV from different plant tissues even individual sees. The highest STV concentrations were found in tomato leaves and roots. In the seeds, STV could be detected in both coat and embryo. The virus transmission by seed and the STV incidence in fields and seedlings was very high, being higher in commercial tomato varieties than in local ones. Phylogenetic analysis from different STV isolates showed a low genetic diversity with a high negative selection pressure. Moreover, there was no correlation between genetic diversity and geographic region. This could be explained by a quick dispersion of infected seeds and/or by the high negative selection pressure. It was shown that STV did not induce any apparent plant symptom and did not affect the plant production in single infection conditions. Also, physiological parameters related to stomatic conductivity, photosynthesis, and plant weight were no affected by STV infection in saline stress conditions. Optic and transmission electron microscopy did not reveal viral particles or structural changes in STV tomato tissues. However, the population analysis of miRNAs showed that STV was able to modify the expression of some miRNAs which modulated important plant functions. Low vsiRNAs were detected in STV tomato infected plants. It could be produced by the action of a suppressor which could suppress the gene silencing pathway in the plants. A transient expression assay of p42 in N. benthamiana 16C plants did not show suppressor activity of this STV protein. Finally, we studied the effect of STV in mixed infections with other acute viruses such as CMV and PepMV. The virus mixes infection assay in tomato plants showed complex interactions between viruses that modify the symptoms severity, the viral accumulation and the siRNA population. STV and CMV established a synergistic interaction in co-infected tomato plants producing the advancement of the symptoms and an increase in its severity. STV and CMV co-infection increased the CMV accumulation in the early stages of infection. On the other hand, the presence of STV in plants co-infected with PepMV also produced an advance of symptoms, but with no variation in the PepMV accumulation. In the group of plants co-infected with CMV and PepMV, it was observed an antagonistic effect that delayed the CMV accumulation, altering the symptoms of the plant with respect to the simple infections. STV was able to break this antagonistic effect by increasing the CMV viral concentration and changing the symptomatology. The siRNAs analysis allowed to identify a total of 78 miRNAs, 47 corresponding to novel miRNAs, that were expressed differentially in the plants infected respect to no infected plants. These miRNAs were involved in the regulation of important functions and their number and their level of expression varied depending on the virus combination. vsiRNAs of the different viruses were also identified and it was observed that rates varied depending on the virus combination. The number of vsiRNAs in STV single infected tomato plants was very small, but it increased with the presence of the other viruses. The frequencies of vsiRNAs in the viral genomes were not uniform and these frequencies were not influenced by other viruses in mixed infections. / Elvira González, L. (2021). Detección y caracterización del virus meridional del tomate (STV) [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/165207 / TESIS

RT-qPCR

Virus meridional del tomate

Amalgaviridae

Virus persistente

MiRNA

VsiRNA

RT-LAMP

Southern tomato virus (STV)

MICROBIOLOGIA