Global ETD Search

1	RNA Detection Technology for Applications in Marine Science: Microbes to Fish Ulrich, Robert Michael 25 June 2014 (has links) The accurate identification of taxa from mixed assemblages using genetic analysis remains an important field of molecular biology research. The common principle behind the development of numerous documented genetic detection technologies is to exploit specific nucleotide sequences inherent to each taxon. This body of work focuses on practical applications of real-time nucleic acid sequence-based amplification (RT-NASBA) in marine science, and is presented in four case studies. Each study represents novel work in the genetic identification of respective taxa of interest using RT-NASBA. Two case studies documented the development of an assay targeting mitochondrial 16S rRNA to discern legally salable grouper species in the U.S. from fraudulently mislabeled surrogate fish. This technology was first validated using lab-based, benchtop instrumentation, and was then adapted into a complete field detection system. The third study documented an internally controlled RT-NASBA (IC-NASBA) assay for the detection and quantification of the harmful algal bloom-causing dinoflagellate, Karenia mikimotoi, by targeting the ribulose-1, 5-bisphosphate carboxylase-oxygenase (RuBisCO) large-subunit gene (rbcL). The final section of this dissertation details the preliminary development of an IC-NASBA assay targeting large subunit rRNA for the quantification of Enterococcus, which is a genus of bacteria commonly used as an indicator of fecal pollution in recreational marine water. My results show that RT-NASBA provides a suitable format for the accurate identification of target species from these taxa which include prokaryotes, as well as both unicellular and multicellular eukaryotes. Enterococcus grouper Karenia mikimotoi NASBA Biology Molecular Biology
2	Development of a Generic PDA Based Control Mechanism for in-house Fabricated Miniature Sensors Kedia, Sunny 19 November 2004 (has links) A novel method of controlling miniature sensors using Handspring Visor Prism PDA has been implemented. A generic motherboard was developed to map the data and address lines from the Visor onto a Complex Programmable Logic Device (CPLD) to provide basic electrical signals to the sensor board. The sensor board housed the sensor and contained application specific circuitry. The PDA, the motherboard, and the sensor board completed the control mechanism for the sensor. Miniature sensors and PDA based control mechanism scaled down the size of the complete system making the unit portable. This unit facilitated a faster analysis of data on field. Two applications were targeted: Flurometer (bio-sensor) and Corner Cube Retroreflector (CCR-optical sensor for communication). A sensor board was developed to control a thermally regulated fluorometer undergoing the Nuclei Acid Synthesis Based Amplification (NASBA) process, which detected the fluorescence from the solution containing target RNA. NASBA runs were conducted using solution containing K. brevis- Red tide organisms to validate the interface of the PDA with a fluorometer. Real time fluorescence plot over time was obtained on the PDA indicating presence/absence of the target RNA; thus, it successfully interfaced the PDA with the fluorometer. Additionally, a sensor board was developed to control the electrostatic actuation mechanism of the MEMS based CCR. Efforts were made to fabricate the vertical mirrors of CCR using wet and dry fabrication techniques. Handspring Codewarrior MEMS fluorometer corner cube reflector Orcad CPLD NASBA American Studies Arts and Humanities
3	Molecular Detection of the Toxic Marine Diatom Pseudo-nitzschia multiseries Delaney, Jennifer A. 15 October 2010 (has links) The marine diatom genus Pseudo-nitzschia includes species that produce domoic acid, a neurotoxin responsible for illness and mortality in both humans and marine wildlife. Because of the expertise and time required for the microscopic discrimination of species, molecular methods that monitor environmental concentrations of Pseudo-nitzschia provide a rapid alternative for the early detection of blooms and prediction of toxin accumulation. We have developed a nucleic acid sequence-based amplification with internal control RNA (IC-NASBA) assay and a quantitative reverse transcription PCR (qRT-PCR) assay for the detection of the toxic species P. multiseries targeting the ribulose- 1,5-biphosphate carboxylase/oxygenase small subunit (rbcS) gene. Both methods use RNA amplification and fluorescence-based real-time detection. Due to a limited rbcS sequence database, primers were designed and used to sequence this gene from 14 strains of Pseudo-nitzschia (including four P. multiseries) and 19 other marine diatoms. The IC-NASBA and qRT-PCR assays had a limit of detection of one cultured cell of P. multiseries and were linear over four and five orders of magnitude, respectively (r2 ! 0.98). Neither of the assays detected closely related organisms outside the Pseudo-nitzschia genus, and the qRT-PCR assay was specific to P. multiseries. While cross-reactivity of primers with unknown species prevented reliable detection of P. multiseries in spiked environmental samples using IC-NASBA, the qRT-PCR assay had positive detection from 107 cells/L to 103 cells/L. Nearly a 1:1 relationship was observed between predicted and calculated cell concentrations using qRT-PCR. Based on a diel expression study, the rbcS transcript copy number per cell ranged from 2.16 x 104 to 5.35 x 104, with the highest expression during early to mid photoperiod. The rbcS qRT-PCR assay is useful for the detection and enumeration of low concentrations of P. multiseries in the environment. Pseudo-nitzschia NASBA qRT-PCR harmful algae detection rbcS American Studies Arts and Humanities
4	Development of a Computer Algorithm for Generation of Primers for Nucleic Acid Sequence Based Amplification (NASBA) Karnati, Rohit 01 January 2020 (has links) Nucleic acid sequence based amplification (NASBA) is a primer based isothermal method of RNA/DNA amplification. Currently, primer design for NASBA has been restricted to hand creating sequences of oligonucleotides that must follow a set of rules to be compatible for the amplification process. This process of hand-creating primers is prone to error and time intensive. The detection of mutants, post amplification, also offers a benefit in point of care scenarios and the design of hybridization probes for sequences in the region of amplification is also an erroneous and time intensive process. By creating a program to design primers and hybridization probes based on the set of rules provided for a sequence of user input DNA or RNA, one can avoid costly errors in primers design and save time. Utilizing Python (a high-level object-oriented programming language), along with a series of bioinformatic libraries such as Biopython and UNAfold one can definitively choose the best primer sequences for a given sample of DNA. Nucleic acid amplification NASBA Bioinformatics Genomics Chemistry Point of Care Biochemistry Chemistry
5	Etude Physico-chimique des puces à ADN: Stabilité du duplex d'ADN, détection des mutations ponctuelles et au-delà Fuchs, Julia 05 November 2009 (has links) (PDF) Le travail de cette thèse est axé autour de l'observation de la stabilité du duplexe de l'ADN. Exploitant un système de détection en temps réel basé sur le principe de l'imagerie par la résonance des plasmons de surface, nous utilisons des rampes de température pour mettre en évidence les interactions d'ADN sur une biopuce fonctionnalisée. Un premier travail porte ainsi sur une comparaison de chimies de greffages et l'influence du tampon sur la stabilité du duplex d'ADN. Notamment, la salinité du milieu et l'influence d'un dénaturant de l'ADN sont étudiés. Dans un deuxième temps, la méthode des rampes de température est appliquée à la détection des mutations ponctuelles sur des cibles d'ADN et ARN longues, issus de la polymerase chain reaction (PCR) ou la nucleic acid sequence based amplification (NASBA), respectivement. L'effet de compétition entre cibles mutées et l'hybridation à la surface est abordé. De plus, les structures secondaires en solutions peuvent changer la capture des cibles sur les sondes. La possibilité d'intégrer l'amplification dans un système de détection sur puce est démontrée pour la NASBA. Enfin, en collaboration avec le laboratoire des lésions d'acides nucléiques (LAN) au CEA Grenoble, une étude des interactions et de l'activité de protéines réparatrices sur l'ADN endommagé est présentée, profitant, de nouveau du choix flexible de la température. rampes de températures mutation ponctuelle poly-pyrrole auto-assemblage de thiol PCR NASBA lésions d'ADN réparation par excision de base
6	Development of molecular-based techniques for the detection, identification and quantification of food-borne pathogens Rodríguez Lázaro, David 18 June 2004 (has links) La presencia de microorganismos patógenos en alimentos es uno de los problemas esenciales en salud pública, y las enfermedades producidas por los mismos es una de las causas más importantes de enfermedad. Por tanto, la aplicación de controles microbiológicos dentro de los programas de aseguramiento de la calidad es una premisa para minimizar el riesgo de infección de los consumidores. Los métodos microbiológicos clásicos requieren, en general, el uso de pre-enriquecimientos no-selectivos,enriquecimientos selectivos, aislamiento en medios selectivos y la confirmación posterior usando pruebas basadas en la morfología, bioquímica y serología propias de cada uno de los microorganismos objeto de estudio. Por lo tanto, estos métodos son laboriosos, requieren un largo proceso para obtener resultados definitivos y, además, no siempre pueden realizarse. Para solucionar estos inconvenientes se han desarrollado diversas metodologías alternativas para la detección identificación y cuantificación de microorganismos patógenos de origen alimentario, entre las que destacan los métodosinmunológicos y moleculares. En esta última categoría, la técnica basada en la reacción en cadena de la polimerasa (PCR) se ha convertido en la técnica diagnóstica más popular en microbiología, y recientemente, la introducción de una mejora de ésta, la PCR a tiempo real, ha producido una segunda revolución en la metodología diagnóstica molecular, como pude observarse por el número creciente de publicaciones científicas y la aparición continua de nuevos kits comerciales. La PCR a tiempo real es unatécnica altamente sensible -detección de hasta una molécula- que permite la cuantificación exacta de secuencias de ADN específicas de microorganismos patógenos de origen alimentario. Además, otras ventajas que favorecen su implantación potencial en laboratorios de análisis de alimentos son su rapidez, sencillez y el formato en tubo cerrado que puede evitar contaminaciones post-PCR y favorece la automatización y un alto rendimiento. En este trabajo se han desarrollado técnicas moleculares (PCR y NASBA) sensibles y fiables para la detección, identificación y cuantificación de bacterias patogénicas de origen alimentario (Listeria spp., Mycobacterium avium subsp. paratuberculosis y Salmonella spp.). En concreto, se han diseñado y optimizado métodos basados en la técnica de PCR a tiempo real para cada uno de estos agentes: L. monocytogenes, L. innocua, Listeria spp. M. avium subsp. paratuberculosis, y también se ha optimizado yevaluado en diferentes centros un método previamente desarrollado para Salmonella spp. Además, se ha diseñado y optimizado un método basado en la técnica NASBA para la detección específica de M. avium subsp. paratuberculosis. También se evaluó la aplicación potencial de la técnica NASBA para la detección específica de formas viables de este microorganismo. Todos los métodos presentaron una especificidad del 100 % con una sensibilidad adecuada para su aplicación potencial a muestras reales de alimentos. Además, se han desarrollado y evaluado procedimientos de preparación de las muestras en productos cárnicos, productos pesqueros, leche y agua. De esta manera se han desarrollado métodos basados en la PCR a tiempo real totalmente específicos y altamente sensibles para la determinación cuantitativa de L. monocytogenes en productoscárnicos y en salmón y productos derivados como el salmón ahumado y de M. avium subsp. paratuberculosis en muestras de agua y leche. Además este último método ha sido también aplicado para evaluar la presencia de este microorganismo en el intestino de pacientes con la enfermedad de Crohn's, a partir de biopsias obtenidas de colonoscopia de voluntarios afectados.En conclusión, este estudio presenta ensayos moleculares selectivos y sensibles para la detección de patógenos en alimentos (Listeria spp., Mycobacterium avium subsp. paratuberculosis) y para una rápida e inambigua identificación de Salmonella spp. La exactitud relativa de los ensayos ha sido excelente, si se comparan con los métodos microbiológicos de referencia y pueden serusados para la cuantificación de tanto ADN genómico como de suspensiones celulares. Por otro lado, la combinación con tratamientos de preamplificación ha resultado ser de gran eficiencia para el análisis de las bacterias objeto de estudio. Por tanto, pueden constituir una estrategia útil para la detección rápida y sensible de patógenos en alimentos y deberían ser una herramienta adicional al rango de herramientas diagnósticas disponibles para el estudio de patógenos de origen alimentario. / The presence of pathogens in foods is among the most serious public health concerns, and the diseases produced by them are a major cause of morbidity. Consequently, the application of microbiological control within the quality assessment programs in the food industry is a premise to minimize the risk of infection for the consumer. Classical microbiological methods involve, in general, the use of a non-selective pre-enrichment, selective enrichment, isolation on selective media, and subsequent confirmation using morphological, biochemical and/or serological tests. Thus, they are laborious, time consuming and not always reliable (e.g. in viable but non-culturable VBNC forms). A number of alternative, rapid and sensitive methods for the detection, identification and quantification of foodborne pathogens have been developed to overcome these drawbacks. PCR has become the most popular microbiological diagnostic method, and recently, the introduction of a development of this technique, RTi-PCR, has produced a second revolution in the molecular diagnostic methodology in microbiology. RTi-PCR is highly sensitive and specific. Moreover, it allows accurate quantification of the bacterial target DNA. Main advantages of RTi-PCR for its application in diagnostic laboratories include quickness, simplicity, the closed-tube format that avoids risks of carryover contaminations and the possibility of high throughput and automation.In this work, specific, sensitive and reliable analytical methods based on molecular techniques (PCR and NASBA) were developed for the detection, identification and quantification of foodborne pathogens (Listeria spp., Mycobacterium avium subsp. paratuberculosis and Salmonella spp.). Real-time PCR based methods were designed and optimised for each one of these target bacteria: L. monocytogenes, L. innocua, Listeria spp. M. avium subsp. paratuberculosis, and also a real-time PCR basedmethod previously described for Salmonella spp. was optimised and multicenter evaluated. In addition, an NASBA-based method was designed and optimised for the specific detection of M. avium subsp. paratuberculosis. The potential application of the NASBA technique for specific detection of viable M. avium subsp. paratuberculosis cells was also evaluated.All the amplification-based methods were 100 % specific and the sensitivity achieved proved to be fully suitable for further application in real food samples. Furthermore, specific pre-amplification procedures were developed and evaluated on meatproducts, seafood products, milk and water samples. Thus, fully specific and highly sensitive real-time PCR-based methods were developed for quantitative detection of L. monocytogenes on meat and meat products and on salmon and cold smoked salmon products; and for quantitative detection of M. avium subsp. paratuberculosis on water and milk samples. The M. avium subsp. paratuberculosis-specific real-time PCR-based method was also applied to evaluate the presence of this bacterium in the bowelof Crohn's disease patients using colonic biopsy specimens form affected and unaffected volunteers. In addition, fully specific and highly sensitive real-time NASBA-based methods were developed for detection of M. avium subsp. paratuberculosis on water and milk samples.In conclusion, this study reports selective and sensitive amplification-based assays for the quantitative detection of foodborne pathogens (Listeria spp., Mycobacterium avium subsp. paratuberculosis and) and for a quick and unambiguously identification of Salmonella spp. The assays had an excellent relative accuracy compared to microbiological reference methods and can be used for quantification of genomic DNA and also cell suspensions. Besides, in combination with sample pre-amplification treatments,they work with high efficiency for the quantitative analysis of the target bacteria. Thus, they could be a useful strategy for a quick and sensitive detection of foodborne pathogens in food products and which should be a useful addition to the range of diagnostic tools available for the study of these pathogens. Foodborne pathogens Detecció microbiana NASBA Microbial detection Detección microbiana Listeria Crohn's disease Enfermedad de Crohn PCR a tiempo real Malaltia de Crohn Patògens d'origen alimentari Patógenos de origen alimentario Real-time PCR 577 613 632
7	Detection of Viable Foodborne Pathogens and Spoilage Microorganisms by Nucleic Acid Amplification Based Platforms Xiao, Linlin 08 September 2011 (has links) No description available. Food Science Foodborne Pathogens Food spoilage Viable microbial detection RNA cell viability indictor Spoilage yeasts Listeria monocytogenes Pseudomonas NASBA real-time RT-PCR PMA-PCR

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