Combinaison des techniques de biologie moléculaire et de la spectrométrie dans le proche infrarouge pour l'authentification des denrées destinées à l'alimentation humaine et animale

Fumière, Olivier

11 May 2010

Résumé: Lauthentification est un concept large dans lequel il sagit de pouvoir contrôler ladéquation entre le produit et les informations indiquées sur létiquette. Les techniques utilisant la spectrométrie dans le proche infrarouge dune part, et celles basées sur la PCR dautre part, permettent daborder lauthentification des produits alimentaires sous des angles totalement différents. Loriginalité de ce travail était de les associer pour résoudre deux problèmes précis : 1. lauthentification des poulets de chair à croissance lente utilisés dans des productions de qualité différenciée soumises à des cahiers des charges contraignants ; 2. la détection des farines animales dans lalimentation pour le bétail. Nos travaux sur les poulets de chair nous ont permis de développer des modèles de discrimination reposant sur les spectres dans le proche infrarouge de la viande de poulet. Ils distinguent, pour plus de 80 % des individus, les poulets issus de souches à croissance lente de ceux issus de souches à croissance rapide. Les résultats dune expérimentation animale ont également démontré que la spectrométrie dans le proche infrarouge était capable de mettre évidence des fraudes au niveau de lalimentation des animaux. Deux marqueurs moléculaires spécifiques du type de souche de poulets ont été mis en évidence et caractérisés. Pour le marqueur moléculaire caractéristique des poulets à croissance rapide, un test rapide utilisable en routine a été développé. Dans le cas de la détection des farines animales dans lalimentation du bétail, une méthode de PCR en temps réel sensible et spécifique a été mise au point participant avec succès à des études inter-laboratoires internationales. Associée dans une stratégie originale à la MPIR (microscopie dans le proche infrarouge), elle permet la détection spécifique de particules de farines de viande et dos. Summary: Authentication is a large concept focussing on the control of the correspondance between the product and the information provided on the label. Techniques based on near infrared spectroscopy on the one hand, and those based on PCR on the other hand, allow to tackle the authentication of food and feed products by different sides. The originality of this work was to associate both techniques to solve two specific problems : 1. authentication of slow growing chickens bred in high quality productions according to restricting specifications ; 2. the detection of meat and bone meals in feedingstuffs. The work on the chicken allowed us to develop discriminant models using the near infrared spectra of chicken meat. These models discriminate the chicken from slow- vs. fast-growing chicken for more than 80 % of the animals. The results of an animal experimentation also showed that near infrared spectroscopy was able to detect feeding frauds. Two molecular markers specific of the type of chicken strains were found and characterised. For the one related to the fast-growing chicken strains, a rapid assay applicable in routine testing was conceived. In the case of the meat and bone meal detection in feedingstuffs, a specific and sensitive real time PCR method was developed. It participated succesfully to international inter-laboratory studies. Its combination with NIRM (near infrared microscopy) through an original strategy allows the specific detection of meat and bone meal particles.

BSE/ESB

PCR

animal proteins/proteines animales

PAP/PAT

Real Time PCR

AFLP

NIRM/MPIR

authentication/authentification

NIRS/SPIR

chicken/poulet

meat/viande

Functional genomics of nodulins in the model legume Lotus japonicus

Ott, Thomas

January 2005

During this PhD project three technical platforms were either improved or newly established in order to identify interesting genes involved in SNF, validate their expression and functionally characterise them. An existing 5.6K cDNA array (Colebatch et al., 2004) was extended to produce the 9.6K LjNEST array, while a second array, the 11.6K LjKDRI array, was also produced. Furthermore, the protocol for array hybridisation was substantially improved (Ott et al., in press). After functional classification of all clones according to the MIPS database and annotation of their corresponding tentative consensus sequence (TIGR) these cDNA arrays were used by several international collaborators and by our group (Krusell et al., 2005; in press). To confirm results obtained from the cDNA array analysis different sets of cDNA pools were generated that facilitate rapid qRT-PCR analysis of candidate gene expression. As stable transformation of Lotus japonicus takes several months, an Agrobacterium rhizogenes transformation system was established in the lab and growth conditions for screening transformants for symbiotic phenotypes were improved. These platforms enable us to identify genes, validate their expression and functionally characterise them in the minimum of time.<br> The resources that I helped to establish, were used in collaboration with other people to characterise several genes like the potassium transporter LjKup and the sulphate transporter LjSst1, that were transcriptionally induced in nodules compared to uninfected roots, in more detail (Desbrosses et al., 2004; Krusell et al., 2005). Another gene that was studied in detail was LjAox1. This gene was identified during cDNA array experiments and detailed expression analysis revealed a strong and early induction of the gene during nodulation with high expression in young nodules which declines with the age of the nodule. Therefore, LjAox1 is an early nodulin. Promoter:gus fusions revealed an LjAox1 expression around the nodule endodermis. The physiological role of LjAox1 is currently being persued via RNAi.<br> Using RNA interference, the synthesis of all symbiotic leghemoglobins was silenced simultaneously in Lotus japonicus. As a result, growth of LbRNAi lines was severely inhibited compared to wild-type plants when plants were grown under symbiotic conditions in the absence of mineral nitrogen. The nodules of these plants were arrested in growth 14 post inoculation and lacked the characteristic pinkish colour. Growing these transgenic plants in conditions where reduced nitrogen is available for the plant led to normal plant growth and development. This demonstrates that leghemoglobins are not required for plant development per se, and proves for the first time that leghemoglobins are indispensable for symbiotic nitrogen fixation. Absence of leghemoglobins in LbRNAi nodules led to significant increases in free-oxygen concentrations throughout the nodules, a decrease in energy status as reflected by the ATP/ADP ratio, and an absence of the bacterial nitrogenase protein. The bacterial population within nodules of LbRNAi plants was slightly reduced. Alterations of plant nitrogen and carbon metabolism in LbRNAi nodules was reflected in changes in amino acid composition and starch deposition (Ott et al., 2005). These data provide strong evidence that nodule leghemoglobins function as oxygen transporters that facilitate high flux rates of oxygen to the sites of respiration at low free oxygen concentrations within the infected cells. / Pflanzen der Ordnung der Leguminosen sind von weltweiter Bedeutung für Landwirtschaft und die allgemeine Nährstoffzusammensetzung von Böden. Die physiologische Besonderheit der Leguminosen liegt in ihrer Fähigkeit begründet, zusammen mit Bakterien, den sogenannten Rhizobien, eine Symbiose einzugehen, im Zuge derer es möglich wird, molekularen Luftstickstoff zu binden. Dieser biochemische Prozess findet in neu gebildeten Pflanzenorganen, den sogenannten Wurzelknöllchen statt.<br> In den Pflanzenwissenschaften werden Gene, die im Zuge der Infektion von Leguminosen mit Rhizobien reguliert werden und für den Entwicklungsprozess der Knöllchen eine wichtige Rolle zu spielen scheinen, als Noduline bezeichnet. Mit Hilfe von sogenannten Hochdurchsatzverfahren ist es in den letzten Jahren möglich geworden, die differentielle Expression von Tausenden von Genen gleichzeitig zu beobachten. Zu diesen Verfahren gehören sogenannte cDNA Arrays. Im Zuge dieser Doktorarbeit wurden die weltweit zweitgrößten cDNA Arrays für die Modell-Leguminose Hornklee (Lotus japonicus), der in unserer Gruppe als Untersuchungsobjekt verwendet wird, entwickelt. Mit Hilfe dieser Methode ist es uns möglich, die Regulation von etwa 15.000 Genen gleichzeitig zu untersuchen. Im Zuge von Untersuchungen, die sich mit der Entwicklung von Wurzelknöllchen in Lotus japonicus beschäftigten wurde ein Nodulin, dessen Existenz früher schon einmal beschrieben wurde, noch einmal bestätigt und die Funktion dieses Genes genauer untersucht. Es kodiert für das Enzym Vitamin C Oxidase, das unter Verwendung von molekularem Sauerstoff reduziertes Vitamin C zu einer anderen Form, dem Dehydroascorbat, oxidiert. Dabei wird Wasserstoffperoxid gebildet. Es konnte gezeigt werden, dass sich die Transkription dieses Gens in infizierten Wurzeln kontinuierlich im Verlauf der Symbiose erhöht, jedoch ist die Transkription in jungen Wurzelknöllchen höher als in alten. Darüber hinaus ist es in nur einer Zellschicht der Wurzelknöllchen, die sehr wichtig für die Entwicklung und tatsächliche Funktion der Knöllchen ist, aktiv. Aus den Beobachtungen kann geschlossen werden, dass dieses Gen eine wichtige Funktion in der Entwicklung der Knöllchen zu spielen scheint und vermutlich zur Zellstreckung und Zellteilung in dieser speziellen Zellschicht beiträgt. In einem zweiten Teil der Arbeit wurde sich einem zweiten und dem wohl wichtigsten Nodulin der Leguminosen, dem Leghämoglobin, gewidmet. Leghämoglobin ist dem menschlichen Blutbestandteil Hämoglobin sehr ähnlich und erfüllt dieselbe Aufgabe: es bindet Sauerstoff. Dieser Prozess ist für Leguminosen von erheblicher Bedeutung, da die bereits beschriebene Fixierung von molekularem Luftstickstoff durch ein bakterielles Enzym katalysiert wird, das extrem sauerstoffempfindlich ist. Leghämoglobine gelten unbestritten als die am besten charakterisierten Einweiße aus Wurzelknöllchen und Wissenschaftler behaupten seit fast 40 Jahren, dass sie essentiell für die Funktion der Knöllchen sind. Doch dies wurde bis jetzt nie bewiesen.<br> Mit Hilfe einer neuen Methode, die die spezifische Bildung von Eiweißen verhindert, war es uns möglich, die Synthese von Leghämoglobin in Lotus japonicus vollkommen zu unterdrücken. In Folge dessen zeigen die transgenen Pflanzen deutliche Nährstoffmangelerscheinungen, wenn sie ohne zusätzlichen Stickstoff aber zusammen mit Rhizobien angezogen werden. Sie können zwar Wurzelknöllchen bilden, jedoch sind diese kleiner und haben nicht die charakteristische rötliche Farbe, die bei unveränderten Pflanzen gefunden wird. Der Phänotyp dieser transgenen Pflanzen wird ganz eindeutig durch ihre Unfähigkeit hervorgerufen, Luftstickstoff fixieren zu können. Der Grund dafür ist das Fehlen des bakteriellen Enzyms, das für die Fixierung verantwortlich ist. Dieser Verlust wird durch erhöhte Sauerstoffgehalte in den Knöllchen verursacht. Außerdem konnten durch weitere Untersuchungen eine der vermuteten Funktionsmechanismen von Leghämoglobin bestätigt werden. Diese hier präsentierten Untersuchungen beweisen erstmalig die jahrzehnte alte Hypothese, dass Leghämoglobine essentiell für die Stickstofffixierung in Leguminosen sind.

Lotus japonicus

DNS-Chip

Leghämoglobin

Redoxreaktion

Redoxsystem

Redoxine

Ascorbat-Oxidase

Vitamin C

Hülsenfrüchtler

Rhizobium

legume, symbiosis, nitrogen fixation,

Life sciences

Development of molecular-based techniques for the detection, identification and quantification of food-borne pathogens

Rodríguez Lázaro, David

18 June 2004

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

Serotonergic Responsiveness in Hypothalamic Neurons

Tung, Stephanie S. Y.

04 December 2012

Serotonin (5-HT) has been implicated in energy homeostasis. There is growing evidence that 5-HT, acting through the 5-HT1BR in the paraventricular nucleus of the hypothalamus (PVN), is important to this regulation. To investigate the cellular events underlying 5-HT1BR action, a PVN neuronal cell model was established. The mHypoA-2/30 cell line expresses a complement of markers and neuropeptides specifically localized to the PVN. 5-HT induces neuronal activation in a dose-dependent manner as determined by an elevation in cFos mRNA levels. As 5-HT exerted limited transcriptional control, the integrity of 5-HT signaling machinery was assessed. 5-HT signals through cAMP and calcium secondary messenger systems by suppressing cAMP and elevating intracellular calcium, effects that are mimicked by activating the 5-HT1BR and that are attenuated in the presence of inhibitors. These findings support the use of this novel PVN cell model for delineating components involved in direct 5-HT action in PVN neurons.

physiology

cellular biology

molecular biology

hypothalamus

neuroendocrinology

feeding behaviour

serotonin

neuropeptide expression

transcriptional regulation

obesity

immortalized cell lines

signal transduction

paraventricular nucleus

neuroscience

real-time PCR

calcium signaling

neuronal activation

secretion

0379

0307

0317

0719

0570

Serotonergic Responsiveness in Hypothalamic Neurons

Tung, Stephanie S. Y.

04 December 2012

Serotonin (5-HT) has been implicated in energy homeostasis. There is growing evidence that 5-HT, acting through the 5-HT1BR in the paraventricular nucleus of the hypothalamus (PVN), is important to this regulation. To investigate the cellular events underlying 5-HT1BR action, a PVN neuronal cell model was established. The mHypoA-2/30 cell line expresses a complement of markers and neuropeptides specifically localized to the PVN. 5-HT induces neuronal activation in a dose-dependent manner as determined by an elevation in cFos mRNA levels. As 5-HT exerted limited transcriptional control, the integrity of 5-HT signaling machinery was assessed. 5-HT signals through cAMP and calcium secondary messenger systems by suppressing cAMP and elevating intracellular calcium, effects that are mimicked by activating the 5-HT1BR and that are attenuated in the presence of inhibitors. These findings support the use of this novel PVN cell model for delineating components involved in direct 5-HT action in PVN neurons.

physiology

cellular biology

molecular biology

hypothalamus

neuroendocrinology

feeding behaviour

serotonin

neuropeptide expression

transcriptional regulation

obesity

immortalized cell lines

signal transduction

paraventricular nucleus

neuroscience

real-time PCR

calcium signaling

neuronal activation

secretion

0379

0307

0317

0719

0570

The influence of Toll-like receptors on murine invariant natural killer T cell activation

Villanueva, Alexander Ian

21 June 2013

Invariant natural killer T (iNKT) cells are a versatile subclass of T lymphocytes which recognize glycolipid antigens. iNKT cells are capable of rapidly producing a broad array of cytokines in response to stimulation; thus, they play an important role in the early regulation of a variety of immune responses. It was hypothesized that iNKT cells express functional Toll-like receptors (TLRs) and that stimulation of TLRs by their ligands modulates iNKT cells responses. In the first objective, it was revealed that upon stimulation with anti-CD3 monoclonal antibody and interferon (IFN)-α, expression of TLRs was enhanced in iNKT cells. Furthermore, stimulation of iNKT cells with TLR ligands led to a significant increase in the expression of several cytokines. In the second objective, the mechanisms behind the modulatory effects of the TLR9 ligand (CpG-ODN) on iNKT cells were determined. Altogether, these findings suggest a direct role for TLRs in iNKT cell activation. / Ontario Graduate Scholarship

immunology

NKT cells

innate immunity

Toll-like receptors

real-time PCR

ELISA

Western blot

flow cytometry

macrophage

cell lines

hybridoma

VSV

MAPK

MAPK phosphatase

DUSP1

CpG

T cells

natural killer cells

gene expression

Determination of viral load and integration status of HPV 16 in normal and LSIL exfoliated cervical cells

de Morais, Otelinda

09 1900

L’intégration du génome du virus papilloma humain (VPH) a été reconnu jusqu’`a récemment comme étant un événnement fréquent mais pourtant tardif dans la progression de la maladie du col de l’utérus. La perspective temporelle vient, pourtant, d’être mise au défi par la détection de formes intégrées de VPH dans les tissus normaux et dans les lésions prénéoplasiques. Notre objectif était de déterminer la charge virale de VPH-16 et son état physique dans une série de 220 échantillons provenant de cols uterins normaux et avec des lésions de bas-grade. La technique quantitative de PCR en temps réel, méthode Taqman, nous a permis de quantifier le nombre de copies des gènes E6, E2, et de la B-globine, permettant ainsi l’évaluation de la charge virale et le ratio de E6/E2 pour chaque spécimen. Le ratio E6/E2 de 1.2 ou plus était suggestif d’intégration. Par la suite, le site d’intégration du VPH dans le génome humain a été déterminé par la téchnique de RS-PCR. La charge virale moyenne était de 57.5±324.6 copies d'ADN par cellule et le ratio E6/E2 a évalué neuf échantillons avec des formes d’HPV intégrées. Ces intégrants ont été amplifiés par RS-PCR, suivi de séquençage, et l’homologie des amplicons a été déterminée par le programme BLAST de NCBI afin d’identifier les jonctions virales-humaines. On a réussi `a identifier les jonctions humaines-virales pour le contrôle positif, c'est-à-dire les cellules SiHa, pourtant nous n’avons pas detecté d’intégration par la technique de RS-PCR dans les échantillons de cellules cervicales exfoliées provenant de tissus normaux et de lésions de bas-grade. Le VPH-16 est rarement intégré dans les spécimens de jeunes patientes. / Integration of human papillomavirus (HPV) has, until recently, been a frequent but late event in cervical carcinogenesis. The temporal view has, however, been challenged lately as integrated forms of HPV have been detected even in normal and preneoplastic lesions. Our objective was to describe HPV 16 load and physical state in a series of 220 normal and low grade cervical samples. We used quantitative real-time PCR, Taqman method, targeting E6, E2 and B-globin to calculate the HPV 16 load and the E6/E2 ratio in each sample. An E6/E2 ratio of 1.2 was used as a surrogate marker of integration. The site of integration was determined by restriction site PCR. Results show that the average viral load was 57.5±324.6 copies of DNA per cell, while E6/E2 ratio identified 9 samples with integrants. These integrants underwent amplification by restriction site PCR, followed by sequencing and nucleotide blast to identify the human-viral junctions. In conclusion, although it was possible to identify viral-host junctions with the integration positive control, that is, the SiHa cell line, the exfoliated cells of normal and low grade cervical lesions were negative for integration site by RS-PCR. HPV-16 is seldom integrated in specimens from young patients.

Virus papilloma humain

LSIL

Intégration virale

Charge virale

PCR en temps réel

RS-PCR

PCR-séquençage

HPV16

Human Papilloma Virus

Viral integration

Viral load

Real-time PCR

PCR sequencing

Development of novel combinatorial methods for genotyping the common foodborne pathogen Campylobacter jejuni

Price, Erin Peta

January 2007

Campylobacter jejuni is the commonest cause of bacterial foodborne gastroenteritis in industrialised countries. Despite its significance, it remains unclear how C. jejuni is disseminated in the environment, whether particular strains are more pathogenic than others, and by what routes this bacterium is transmitted to humans. One major factor hampering this knowledge is the lack of a standardised method for fingerprinting C. jejuni. Therefore, the overall aim of this project was to develop systematic and novel genotyping methods for C. jejuni. Chapter Three describes the use of single nucleotide polymorphisms (SNPs) derived from the multilocus sequence typing (MLST) database of C. jejuni and the closely related Campylobacter coli for genotyping these pathogens. The MLST database contains DNA sequence data for over 4000 strains, making it the largest comparative database available for these organisms. Using the in-house software package "Minimum SNPs", seven SNPs were identified from the C. jejuni/C. coli MLST database that gave a Simpson's Index of Diversity (D), or resolving power, of 0.98. An allele-specific real-time PCR method was developed and tested on 154 Australian C. jejuni and C. coli isolates. The major advantage of the seven SNPs over MLST is that they are cheaper, faster and simpler to interrogate than the sequence-based MLST method. When the SNP profiles were combined with sequencing of the rapidly evolving flaA short variable region (flaA SVR) locus, the genotype distributions were comparable to those obtained by MLST-flaA SVR. Recent technological advances have facilitated the characterisation of entire bacterial genomes using comparative genome hybridisation (CGH) microarrays. Chapter Four of this thesis explores the large volume of CGH data generated for C. jejuni and eight binary genes (genes present in some strains but absent in others) were identified that provided complete discrimination of 20 epidemiologically unrelated strains of C. jejuni. Real-time PCR assays were developed for the eight binary genes and tested on the Australian isolates. The results from this study showed that the SNP-binary assay provided a sufficient replacement for the more laborious MLST-flaA SVR sequencing method. The clustered regularly interspaced short palindromic repeat (CRISPR) region is comprised of tandem repeats, with one half of the repeat region highly conserved and the other half highly diverse in sequence. Recent advances in real-time PCR enabled the interrogation of these repeat regions in C. jejuni using high-resolution melt differentiation of PCR products. It was found that the CRISPR loci discriminated epidemiologically distinct isolates that were indistinguishable by the other typing methods (Chapter Five). Importantly, the combinatorial SNP-binary-CRISPR assay provided resolution comparable to the current 'gold standard' genotyping methodology, pulsed-field gel electrophoresis. Chapter Six describes a novel third module of "Minimum SNPs", 'Not-N', to identify genetic targets diagnostic for strain populations of interest from the remaining population. The applicability of Not-N was tested using bacterial and viral sequence databases. Due to the weakly clonal population structure of C. jejuni and C. coli, Not-N was inefficient at identifying small numbers of SNPs for the major MLST clonal complexes. In contrast, Not-N completely discriminated the 13 major subtypes of hepatitis C virus using 15 SNPs, and identified binary gene targets superior to those previously found for phylogenetic clades of C. jejuni, Yersinia enterocolitica and Clostridium difficile, demonstrating the utility of this additional module of "Minimum SNPs". Taken together, the presented work demonstrates the potentially far-reaching applications of novel and systematic genotyping assays to characterise bacterial pathogens with high accuracy and discriminatory power. This project has exploited known genetic diversity of C. jejuni to develop highly targeted assays that are akin to the resolution of the current 'gold standard' typing methods. By targeting differentially evolving genetic markers, an epidemiologically relevant, high-resolution fingerprint of the isolate in question can be determined at a fraction of the time, effort and cost of current genotyping procedures. The outcomes from this study will pave the way for improved diagnostics for many clinically significant pathogens as the concept of hierarchal combinatorial genotyping gains momentum amongst infectious disease specialists and public health-related agencies.

Campylobacter jejuni

Campylobacter coli

genotyping

single-nucleotide polymorphism

SNP

binary gene

CRISPR

HRM

high-resolution melt

Minimum SNPs

Not-N

bacteria

real-time PCR

comparative genome hybridisation

CGH

microarray

software

hepatitis C virus

HCV

The development of rapid genotyping methods for methicillin-resistant Staphylococcus aureus

Stephens, Alex J.

January 2008

Methicillin-resistant Staphylococcus aureus (MRSA) is an important human pathogen that is endemic in hospitals all over the world. It has more recently emerged as a serious threat to the general public in the form of community-acquired MRSA. MRSA has been implicated in a wide variety of diseases, ranging from skin infections and food poisoning to more severe and potentially fatal conditions, including; endocarditis, septicaemia and necrotising pneumonia. Treatment of MRSA disease is complicated and can be unsuccessful due to the bacterium's remarkable ability to develop antibiotic resistance. The considerable economic and public health burden imposed by MRSA has fuelled attempts by researchers to understand the evolution of virulent and antibiotic resistant strains and thereby improve epidemiological management strategies. Central to MRSA transmission management strategies is the implementation of active surveillance programs, via which unique genetic fingerprints, or genotypes, of each strain can be identified. Despite numerous advances in MRSA genotyping methodology, there remains a need for a rapid, reproducible, cost-effective method that is capable of producing a high level of genotype discrimination, whilst being suitable for high throughput use. Consequently, the fundamental aim of this thesis was to develop a novel MRSA genotyping strategy incorporating these benefits. This thesis explored the possibility that the development of more efficient genotyping strategies could be achieved through careful identification, and then simple interrogation, of multiple, unlinked DNA loci that exhibit progressively increasing mutation rates. The baseline component of the MRSA genotyping strategy described in this thesis is the allele-specific real-time PCR interrogation of slowly evolving core single nucleotide polymorphisms (SNPs). The genotyping SNP set was identified previously from the Multi-locus sequence typing (MLST) sequence database using an in-house software package named Minimum SNPs. As discussed in Chapter Three, the genotyping utility of the SNP set was validated on 107 diverse Australian MRSA isolates, which were largely clustered into groups of related strains as defined by MLST. To increase the resolution of the SNP genotyping method, a selection of binary virulence genes and antimicrobial resistance plasmids were tested that were successful at sub typing the SNP groups. A comprehensive MRSA genotyping strategy requires characterisation of the clonal background as well as interrogation of the hypervariable Staphylococcal Cassette Chromosome mec (SCCmec) that carries the β-lactam resistance gene, mecA. SCCmec genotyping defines the MRSA lineages; however, current SCCmec genotyping methods have struggled to handle the increasing number of SCCmec elements resulting from a recent explosion of comparative genomic analyses. Chapter Four of this thesis collates the known SCCmec binary marker diversity and demonstrates the ability of Minimum SNPs to identify systematically a minimal set of binary markers capable of generating maximum genotyping resolution. A number of binary targets were identified that indeed permit high resolution genotyping of the SCCmec element. Furthermore, the SCCmec genotyping targets are amenable for combinatorial use with the MLST genotyping SNPs and therefore are suitable as the second component of the MRSA genotyping strategy. To increase genotyping resolution of the slowly evolving MLST SNPs and the SCCmec binary markers, the analysis of a hypervariable repeat region was required. Sequence analysis of the Staphylococcal protein A (spa) repeat region has been conducted frequently with great success. Chapter Five describes the characterisation of the tandem repeats in the spa gene using real-time PCR and high resolution melting (HRM) analysis. Since the melting rate and precise point of dissociation of double stranded DNA is dependent on the size and sequence of the PCR amplicon, the HRM method was used successfully to identify 20 of 22 spa sequence types, without the need for DNA sequencing. The accumulation of comparative genomic information has allowed the systematic identification of key MRSA genomic polymorphisms to genotype MRSA efficiently. If implemented in its entirety, the strategy described in this thesis would produce efficient and deep-rooted genotypes. For example, an unknown MRSA isolate would be positioned within the MLST defined population structure, categorised based on its SCCmec lineage, then subtyped based on the polymorphic spa repeat region. Overall, by combining the genotyping methods described here, an integrated and novel MRSA genotyping strategy results that is efficacious for both long and short term investigations. Furthermore, an additional benefit is that each component can be performed easily and cost-effectively on a standard real-time PCR platform.

Evaluation of molecular methods used for the rapid detection of multi-drug resistant Mycobacterium tuberculosis

Hansen, Tarrant William

January 2008

Tuberculosis remains a major public health issue globally, with an estimated 9.2 million new cases in 2006. A new threat to TB control is the emergence of drug resistant strains. These strains are harder to cure as standard anti-tuberculosis first line treatments are ineffective. Multi Drug Resistant Tuberculosis (MDR-TB) is defined as Mycobacterium tuberculosis that has developed resistance to at least rifampicin and isoniazid, and these strains now account for greater than 5% of worldwide cases. Mutations within the Rifampicin Resistance Determining Region (RRDR) of the rpoB gene are present in greater than 95% of strains that show rifampicin resistance by conventional drug susceptibility testing. As rifampicin mono resistance is extremely rare, and rifampicin resistance is usually associated with isoniaizd resistance, the RRDR region of the rpoB gene is a very useful surrogate marker for MDR-TB. Many molecular assays have been attempted based on this theory and have had varied levels of success. The three methods evaluated in this study are DNA sequencing of the rpoB, katG and inhA genes, the Genotype MTBDRplus line probe assay (Hain Lifesciences) and a novel method incorporating Real-Time PCR with High Resolution Melt analysis targeted at the RRDR using the Rotorgene 6000 (Corbett Lifesciences). The sensitivity for the detection of rifampicin resistance was far better using DNA sequencing or the commercially available line probe assay than detection by the Real-Time PCR method developed in this study.