Preimplantation genetic diagnosis : new methods for the detection of genetic abnormalities in human preimplantation embryos

Konstantinidis, Michalis

January 2013

Preimplantation genetic diagnosis (PGD) refers to the testing of embryos produced through in vitro fertilization (IVF) in order to identify those unaffected by a specific genetic disorder or chromosomal abnormality. In this study, different methodologies were examined and developed for performance of PGD. Investigation of various whole genome amplification (WGA) methods identified multiple displacement amplification as a reliable method for genotyping single cells. Furthermore, this technology was shown to be compatible with subsequent analysis using single nucleotide polymorphism (SNP) microarrays. Compared to conventional methods used in this study to perform single cell diagnosis (e.g. multiplex PCR), WGA techniques were found to be advantageous since they streamline the development of PGD protocols for couples at high risk of transmitting an inherited disorder and simultaneously offer the possibility of comprehensive chromosome screening (CCS). This study also aimed to develop a widely applicable protocol for accurate typing of the human leukocyte antigen (HLA) region with the purpose of identifying embryos that will be HLA-identical to an existing sibling affected by a disorder that requires haematopoietic stem cell transplantation. Additionally, a novel microarray platform was developed that, apart from accurate CCS, was capable of reliably determining the relative quantity of mitochondrial DNA in polar bodies removed from oocytes and single cells biopsied from embryos. Mitochondria are known to play an important role in oogenesis and preimplantation embryogenesis and their measurement may therefore be of clinical relevance. Moreover, real-time PCR was used for development of protocols for CCS, DNA fingerprinting of sperm samples and embryos and the relative quantitation of telomere length in embryos (since shortened telomeres might be associated with reduced viability). As well as considering the role of genetics in terms of oocyte and embryo viability assessment and the diagnosis of inherited genetic disorders, attention was given to a specific gene (Phospholipase C zeta) of relevance to male infertility. A novel mutation affecting the function of the resulting protein was discovered highlighting the growing importance of DNA sequence variants in the diagnosis and treatment of infertility.

612.64

Développement de PCRs multiplexes pour le diagnostic : microarrays analytiques / Development of multiplex PCR for diagnosis : analytical microarrays

Cloux Boccoz, Stéphanie

11 December 2015

Les travaux présentés dans cette thèse font suite à celle de Melle LE GOFF. Ils se concentrent sur la technologie HIFI brevetée et développée pendant ses travaux. Une première partie du travail présenté dans ce manuscrit concerne le test HIFI Blood 96™ et plus particulièrement les améliorations et les évolutions apportées au test afin d'en faire un véritable outil de génotypage, multiparamétrique et haut-débit pouvant être installé dans les banques de sang dans le but de constituer des inventaires de sang génotypé de façon étendue, participant ainsi à améliorer la sécurité transfusionnelle. Il permet de caractériser 96 échantillons sur 15 polymorphismes (divisés en deux panels) associés aux groupes sanguins en approximativement 4h30. Cette plateforme a fait l'objet d'une étude de validation à moyenne échelle sur 583 donneurs pour le panel 1 et 190 donneurs pour le panel 2. La deuxième partie des travaux décrit l'adaptation de la technologie HIFI appliquée au diagnostic des pathologies respiratoires, avec le développement d'une autre plateforme, ReSynPlex, en partenariat avec 3 équipes de recherche de Grenoble / The work reported in this thesis follows the one undertaken by Ms LE GOFF. It is focused on HIFI technology, which is patented and developed during her thesis. The first part of this work concerns the HIFI Blood 96™ test, and particularly the improvements and developments adduced to the test to make it a real diagnostic tool, multiparametric and high-throughput which can be implemented in blood banks in order to constitute negative antigen inventories, thus contributing to improve blood safety. It allows to characterize 96 samples on 15 polymorphisms (divided in two panels) associated to blood group systems in approximately 4.5 hours. A mesoscale validation study has been conducted on 583 samples for panel 1 and 190 samples for panel 2. The second part of this work describes the adaptation of HIFI technology applied to diagnosis of respiratory tract infections, with the development of another platform, ReSynPlex, in partnership with 3 research teams in Grenoble

Biopuce

Diagnostic

Génotypage érythrocytaire

Haut-débit

Infections respiratoires

Microarrays

PCR multiplexe

Polymorphisme d’un nucléotide

Biochip

Diagnosis

Blood group genotyping

High-throughput

Respiratory tract infections

Microarray

Multiplex PCR

Single nucleotide polymorphism

572

Pathogenesis and clinical significance of AIDA-I-positive <i>E. coli</i> in diarrhea of pigs

Ravi, Madhu Babu

03 July 2006

<i>Escherichia coli </i> remains a significant cause of diarrhea worldwide and in recent years a relatively high number of E. coli carrying gene for AIDA-I (adhesin involved in diffuse adherence) has been isolated from cases of neonatal and post-weaning diarr<i>Escherichia coli</i> remains a significant cause of diarrhea worldwide and in recent years a relatively high number of <i>E. coli</i> carrying gene for AIDA-I (adhesin involved in diffuse adherence) has been isolated from cases of neonatal and post-weaning diarrhea in pigs. AIDA-I adhesin and its gene aidA were first identified and characterized in <i>E. coli</i> isolated from a human case of infantile diarrhea. Recent studies have demonstrated a significant degree of homology between the AIDA-I adhesin isolated from porcine neonatal diarrheagenic <i>E. coli</i> isolates and that from a human <i>E. coli</i> isolate; however, the role of AIDA-I adhesin in the pathogenesis of diarrhea and the clinical significance of the AIDA-I <i>E. coli</i> virotype are unknown in humans or in animals. <p>First, in order to evaluate the role of AIDA-I adhesin, colostrum deprived newborn pigs were infected with: i) a wild strain PD20 (AIDA-I+/STb+) <i>E. coli</i>; ii) a mutant strain PD20M (AIDA-I-/STb+), generated by partial deletion of the aidA gene from the wild strain, iii) a complemented strain PD20C (AIDA-I+/STb+), generated by reintroducing the full length aidA gene into PD20M strain, and iv) a nonpathogenic <i>E. coli</i> strain PD71 used as negative control. Pigs infected with wild type (PD20) and complemented (PD20C) strains developed diarrhea between 15-19 h and 27-31 h after oral inoculation, respectively, in contrast to pigs infected with strains PD20M or PD71 that did not developed diarrhea. Intestinal colonization was evaluated by histology, imunohistochemistry (IHC), transmission electron microscopy (TEM), including immunogold electron microscopy (IGEM), and showed heavy bacterial colonization with biofilm formation in the large intestine with AIDA-I+ strains (PD20 and PD20C), but not in pigs infected with AIDA-I- strains (PD20M and PD71). In vitro assays showed marked diffuse adherence to HeLa cells, enhanced bacterial autoaggregation and significant biofilm formation by AIDA-I+ strains, when compared to AIDA-I- strains.<p>Second, 110 F4 negative <i>E. coli</i> isolates from problematic cases of diarrhea in pigs were subjected to multiplex polymerase chain reaction (M-PCR) for detection of the genes encoding the virulence factors F4, F5, F6, F18, F41, AIDA-I, EAE, STa, STb, LT, EAST1 and Stx2e. In this study, the prevalence of aidA gene among the 110 isolates was 8.2%, and the aidA gene was shown to be associated most commonly with EAST1 and STb genes. The genes for the F4, F5, F6 and F41 fimbriae were absent in all the AIDA-I+ <i>E. coli</i> isolates. <p>The clinical significance of the AIDA-I+ <i>E. coli</i> was studied using clinical data available for 35 of the 110 <i>E. coli</i> isolates, originating from 18 cases of diarrhea. Among these 18 diarrhea cases, 3 cases (5 isolates) were found to have AIDA-I+ <i>E. coli</i> and these were significantly associated with diarrhea cases of post-weaning age group. Enterotoxigenic <i>E. coli</i> strains were isolated from the majority (72.5%) of 18 diarrhea cases and a high proportion (23.1%) of these ETEC cases carried AIDA-I+ <i>E. coli</i>. <p>In conclusion, AIDA-I adhesin appears to be a significant virulence factor for intestinal colonization and induction of biofilm formation. Further, experimental studies and clinical data suggest that the AIDA-I/STb virotype may be important in the pathogenesis of pre-weaning and post-weaning diarrhea in pigs. Our results suggest that AIDA-I may play a significant role in the development of diarrhea in pigs. .hea in pigs. AIDA-I adhesin and its gene aidA were first identified and characterized in E. coli isolated from a human case of infantile diarrhea. Recent studies have demonstrated a significant degree of homology between the AIDA-I adhesin isolated from porcine neonatal diarrheagenic E. coli isolates and that from a human E. coli isolate; however, the role of AIDA-I adhesin in the pathogenesis of diarrhea and the clinical significance of the AIDA-I E. coli virotype are unknown in humans or in animals. First, in order to evaluate the role of AIDA-I adhesin, colostrum deprived newborn pigs were infected with: i) a wild strain PD20 (AIDA-I+/STb+) E. coli; ii) a mutant strain PD20M (AIDA-I-/STb+), generated by partial deletion of the aidA gene from the wild strain, iii) a complemented strain PD20C (AIDA-I+/STb+), generated by reintroducing the full length aidA gene into PD20M strain, and iv) a nonpathogenic E. coli strain PD71 used as negative control. Pigs infected with wild type (PD20) and complemented (PD20C) strains developed diarrhea between 15-19 h and 27-31 h after oral inoculation, respectively, in contrast to pigs infected with strains PD20M or PD71 that did not developed diarrhea. Intestinal colonization was evaluated by histology, imunohistochemistry (IHC), transmission electron microscopy (TEM), including immunogold electron microscopy (IGEM), and showed heavy bacterial colonization with biofilm formation in the large intestine with AIDA-I+ strains (PD20 and PD20C), but not in pigs infected with AIDA-I- strains (PD20M and PD71). In vitro assays showed marked diffuse adherence to HeLa cells, enhanced bacterial autoaggregation and significant biofilm formation by AIDA-I+ strains, when compared to AIDA-I- strains. Second, 110 F4 negative E. coli isolates from problematic cases of diarrhea in pigs were subjected to multiplex polymerase chain reaction (M-PCR) for detection of the genes encoding the virulence factors F4, F5, F6, F18, F41, AIDA-I, EAE, STa, STb, LT, EAST1 and Stx2e. In this study, the prevalence of aidA gene among the 110 isolates was 8.2%, and the aidA gene was shown to be associated most commonly with EAST1 and STb genes. The genes for the F4, F5, F6 and F41 fimbriae were absent in all the AIDA-I+ E. coli isolates. The clinical significance of the AIDA-I+ E. coli was studied using clinical data available for 35 of the 110 E. coli isolates, originating from 18 cases of diarrhea. Among these 18 diarrhea cases, 3 cases (5 isolates) were found to have AIDA-I+ E. coli and these were significantly associated with diarrhea cases of post-weaning age group. Enterotoxigenic E. coli strains were isolated from the majority (72.5%) of 18 diarrhea cases and a high proportion (23.1%) of these ETEC cases carried AIDA-I+ E. coli. In conclusion, AIDA-I adhesin appears to be a significant virulence factor for intestinal colonization and induction of biofilm formation. Further, experimental studies and clinical data suggest that the AIDA-I/STb virotype may be important in the pathogenesis of pre-weaning and post-weaning diarrhea in pigs. Our results suggest that AIDA-I may play a significant role in the development of diarrhea in pigs.

AIDA-I E. coli Electron microscopy

AIDA-I Biofilm

E. coli diarrhea pathogenesis

Immunogold electron-microscopy

E. coli

E. coli diarrhea pigs

AIDA-I positive E. coli

AIDA-I E. coli

AIDA-I E. coli mutant

E. coli virulence factors

multiplex PCR

Pathogenesis and clinical significance of AIDA-I-positive <i>E. coli</i> in diarrhea of pigs

Ravi, Madhu Babu

03 July 2006

<i>Escherichia coli </i> remains a significant cause of diarrhea worldwide and in recent years a relatively high number of E. coli carrying gene for AIDA-I (adhesin involved in diffuse adherence) has been isolated from cases of neonatal and post-weaning diarr<i>Escherichia coli</i> remains a significant cause of diarrhea worldwide and in recent years a relatively high number of <i>E. coli</i> carrying gene for AIDA-I (adhesin involved in diffuse adherence) has been isolated from cases of neonatal and post-weaning diarrhea in pigs. AIDA-I adhesin and its gene aidA were first identified and characterized in <i>E. coli</i> isolated from a human case of infantile diarrhea. Recent studies have demonstrated a significant degree of homology between the AIDA-I adhesin isolated from porcine neonatal diarrheagenic <i>E. coli</i> isolates and that from a human <i>E. coli</i> isolate; however, the role of AIDA-I adhesin in the pathogenesis of diarrhea and the clinical significance of the AIDA-I <i>E. coli</i> virotype are unknown in humans or in animals. <p>First, in order to evaluate the role of AIDA-I adhesin, colostrum deprived newborn pigs were infected with: i) a wild strain PD20 (AIDA-I+/STb+) <i>E. coli</i>; ii) a mutant strain PD20M (AIDA-I-/STb+), generated by partial deletion of the aidA gene from the wild strain, iii) a complemented strain PD20C (AIDA-I+/STb+), generated by reintroducing the full length aidA gene into PD20M strain, and iv) a nonpathogenic <i>E. coli</i> strain PD71 used as negative control. Pigs infected with wild type (PD20) and complemented (PD20C) strains developed diarrhea between 15-19 h and 27-31 h after oral inoculation, respectively, in contrast to pigs infected with strains PD20M or PD71 that did not developed diarrhea. Intestinal colonization was evaluated by histology, imunohistochemistry (IHC), transmission electron microscopy (TEM), including immunogold electron microscopy (IGEM), and showed heavy bacterial colonization with biofilm formation in the large intestine with AIDA-I+ strains (PD20 and PD20C), but not in pigs infected with AIDA-I- strains (PD20M and PD71). In vitro assays showed marked diffuse adherence to HeLa cells, enhanced bacterial autoaggregation and significant biofilm formation by AIDA-I+ strains, when compared to AIDA-I- strains.<p>Second, 110 F4 negative <i>E. coli</i> isolates from problematic cases of diarrhea in pigs were subjected to multiplex polymerase chain reaction (M-PCR) for detection of the genes encoding the virulence factors F4, F5, F6, F18, F41, AIDA-I, EAE, STa, STb, LT, EAST1 and Stx2e. In this study, the prevalence of aidA gene among the 110 isolates was 8.2%, and the aidA gene was shown to be associated most commonly with EAST1 and STb genes. The genes for the F4, F5, F6 and F41 fimbriae were absent in all the AIDA-I+ <i>E. coli</i> isolates. <p>The clinical significance of the AIDA-I+ <i>E. coli</i> was studied using clinical data available for 35 of the 110 <i>E. coli</i> isolates, originating from 18 cases of diarrhea. Among these 18 diarrhea cases, 3 cases (5 isolates) were found to have AIDA-I+ <i>E. coli</i> and these were significantly associated with diarrhea cases of post-weaning age group. Enterotoxigenic <i>E. coli</i> strains were isolated from the majority (72.5%) of 18 diarrhea cases and a high proportion (23.1%) of these ETEC cases carried AIDA-I+ <i>E. coli</i>. <p>In conclusion, AIDA-I adhesin appears to be a significant virulence factor for intestinal colonization and induction of biofilm formation. Further, experimental studies and clinical data suggest that the AIDA-I/STb virotype may be important in the pathogenesis of pre-weaning and post-weaning diarrhea in pigs. Our results suggest that AIDA-I may play a significant role in the development of diarrhea in pigs. .hea in pigs. AIDA-I adhesin and its gene aidA were first identified and characterized in E. coli isolated from a human case of infantile diarrhea. Recent studies have demonstrated a significant degree of homology between the AIDA-I adhesin isolated from porcine neonatal diarrheagenic E. coli isolates and that from a human E. coli isolate; however, the role of AIDA-I adhesin in the pathogenesis of diarrhea and the clinical significance of the AIDA-I E. coli virotype are unknown in humans or in animals. First, in order to evaluate the role of AIDA-I adhesin, colostrum deprived newborn pigs were infected with: i) a wild strain PD20 (AIDA-I+/STb+) E. coli; ii) a mutant strain PD20M (AIDA-I-/STb+), generated by partial deletion of the aidA gene from the wild strain, iii) a complemented strain PD20C (AIDA-I+/STb+), generated by reintroducing the full length aidA gene into PD20M strain, and iv) a nonpathogenic E. coli strain PD71 used as negative control. Pigs infected with wild type (PD20) and complemented (PD20C) strains developed diarrhea between 15-19 h and 27-31 h after oral inoculation, respectively, in contrast to pigs infected with strains PD20M or PD71 that did not developed diarrhea. Intestinal colonization was evaluated by histology, imunohistochemistry (IHC), transmission electron microscopy (TEM), including immunogold electron microscopy (IGEM), and showed heavy bacterial colonization with biofilm formation in the large intestine with AIDA-I+ strains (PD20 and PD20C), but not in pigs infected with AIDA-I- strains (PD20M and PD71). In vitro assays showed marked diffuse adherence to HeLa cells, enhanced bacterial autoaggregation and significant biofilm formation by AIDA-I+ strains, when compared to AIDA-I- strains. Second, 110 F4 negative E. coli isolates from problematic cases of diarrhea in pigs were subjected to multiplex polymerase chain reaction (M-PCR) for detection of the genes encoding the virulence factors F4, F5, F6, F18, F41, AIDA-I, EAE, STa, STb, LT, EAST1 and Stx2e. In this study, the prevalence of aidA gene among the 110 isolates was 8.2%, and the aidA gene was shown to be associated most commonly with EAST1 and STb genes. The genes for the F4, F5, F6 and F41 fimbriae were absent in all the AIDA-I+ E. coli isolates. The clinical significance of the AIDA-I+ E. coli was studied using clinical data available for 35 of the 110 E. coli isolates, originating from 18 cases of diarrhea. Among these 18 diarrhea cases, 3 cases (5 isolates) were found to have AIDA-I+ E. coli and these were significantly associated with diarrhea cases of post-weaning age group. Enterotoxigenic E. coli strains were isolated from the majority (72.5%) of 18 diarrhea cases and a high proportion (23.1%) of these ETEC cases carried AIDA-I+ E. coli. In conclusion, AIDA-I adhesin appears to be a significant virulence factor for intestinal colonization and induction of biofilm formation. Further, experimental studies and clinical data suggest that the AIDA-I/STb virotype may be important in the pathogenesis of pre-weaning and post-weaning diarrhea in pigs. Our results suggest that AIDA-I may play a significant role in the development of diarrhea in pigs.

AIDA-I E. coli Electron microscopy

AIDA-I Biofilm

E. coli diarrhea pathogenesis

Immunogold electron-microscopy

E. coli

E. coli diarrhea pigs

AIDA-I positive E. coli

AIDA-I E. coli

AIDA-I E. coli mutant

E. coli virulence factors

multiplex PCR

Identificação de herpesvírus bovino em amostras de cérebro / Identification of bovine herpesvirus in brain samples

SILVA, Duanne Alves da

24 February 2011

Made available in DSpace on 2014-07-29T15:07:43Z (GMT). No. of bitstreams: 1 Dissertacao Duanne A da Silva.pdf: 1367420 bytes, checksum: 2450c56c8175888ad1aaa259e17f1059 (MD5) Previous issue date: 2011-02-24 / Herpetic meningoencephalitis is an infection of the central nervous system caused by bovine herpesvirus 5 (BoHV-5) despite BoHV-1 also being associated with this pathology. The course of the disease is usually fatal. Meningoencephalitis has caused significant economic burden to the Brazilian cattle industry due to its high mortality rate, especially in young animals. Because of cross-reactivity and the absence of an effective serological test that differentiates types 1 and 5 of herpesvirus, the actual prevalence of infection with both viruses is unknown. It is estimated that some animals, supposedly infected with type 1, may be seropositive for type 5. For a better understanding of the molecular epidemiology of this virus in Goiás, 110 brain samples of young cattle, that died with neurological signs, referred to the reference laboratory of the State of Goiás for rabies diagnosis in 2008, were analyzed by multiplex PCR to amplify the glycoprotein C (gC) region of the BoHV-1 and -5 DNA. Of the 110 samples, 53.6% were positive for bovine herpesvirus. Of these, 22.0% were positive for BoHV-1, whereas 52.5% were positive for BoHV-5. Furthermore, 13.6% of samples showed co-infection for types 1 and 5. Among these, one sample came from a buffalo. Positivity for both bovine herpesvirus and rabies virus was observed in 53.3% of samples. This study showed that BoHV-1 and -5 are circulating among cattle in the State of Goiás and that herpesvirus type 1 can also be encephalitogenic. Although there was no evidence of viral replication, after inoculation of all 20 brain samples in cell culture, the possibility of viruses being associated with neurological disease cannot be ruled out. This was the first study to demonstrate the presence of BoHV-1 and BoHV-5 in samples obtained from herds in Goiás. / A meningoencefalite herpética é uma infecção do sistema nervoso central de curso geralmente fatal causada pelo herpesvírus bovino tipo 5 (BoHV-5), todavia, também o BoHV-1 pode estar associado a essa patologia. A enfermidade tem gerado muitos prejuízos à pecuária brasileira por apresentar elevada letalidade, principalmente, entre animais jovens. Devido a reatividade cruzada e a falta de um teste sorológico eficaz que diferencie os tipos 1 e 5 de herpesvírus bovino, não se sabe a real prevalência das infecções por ambos os vírus. Estima-se que uma parcela dos animais supostamente infectados pelo tipo 1 possa ser soropositiva para o tipo 5. Para um melhor entendimento da epidemiologia molecular desses vírus em Goiás, 110 amostras de cérebro de bovinos jovens que vieram a óbito com sinais neurológicos, encaminhadas ao laboratório de referência do Estado para diagnóstico de raiva no ano de 2008, foram analisadas por PCR multiplex para amplificação da região da glicoproteína C (gC) do DNA do BoHV-1 e -5. Das 110 amostras, 53,6% foram positivas para herpesvírus bovino. Destas, 22,0% foram positivas para o BoHV-1, enquanto 52,5% foram positivas para o BoHV-5. Além disso, encontrou-se 13,6% de coinfecção para os tipos 1 e 5. Entre estas, uma amostra foi proveniente de um bubalino. Foi observada positividade simultânea para herpesvírus bovino e o vírus da raiva em 53,3% das amostras. Este estudo permitiu concluir que o BoHV-1 e o -5 circulam no Estado de Goiás e que o BoHV-1 apresenta potencial encefalitogênico. Apesar de não ter ocorrido multiplicação viral em nenhuma das 20 amostras de cérebro inoculadas em cultura de célula, não se pode descartar a possibilidade da doença neurológica estar associada aos vírus nas outras amostras analisadas. Este foi o primeiro estudo com amostras de Goiás a comprovar a presença dos dois vírus nos rebanhos do Estado.

gado

infecção viral

letalidade

neuropatia

PCR multiplex

reatividade cruzada

cattle

viral infection

lethality

neuropathy

multiplex PCR

cross-reactivity

Isolation and Identification of Foodborne Pathogens of Special Interest in Food Safety

Boukharouba, Aya

13 May 2022

[ES] La seguridad alimentaria es una prioridad para la población y en la actualidad cobra mayor importancia por ciertas tendencias alimentarias como el consumo de alimentos crudos y la distribución generalizada de alimentos orgánicos, que pueden ser la causa de enfermedades transmitidas por alimentos. Para garantizar la seguridad alimentaria, la detección de estos microorganismos debe realizarse de manera rápida y eficiente. Par eso, el método de cultivo microbiológico se considera el oficial para la detección de estos patógenos. Sin embargo, adolece de importantes inconvenientes, ya que no solo requiere mucho tiempo, sino que también es laborioso y consume muchos recursos. Además, puede ser limitado con respecto a la detección de bacterias fisiológicamente alteradas y/o estresadas durante el almacenamiento y la conservación. En este trabajo se ha desarrollado un protocolo sencillo y rápido para la detección simultánea de E. coli, L. monocytogenes, S. aureus y S. enterica en alimentos, mediante la combinación de una etapa de co-cultivo en medio líquido y la detección por PCR múltiple. Se ha evaluado la eficiencia de varios medios de enriquecimiento y se seleccionó el agua de peptona tamponada como el medio óptimo para el co-cultivo de las cuatro bacterias diana. También se optimizaron las condiciones de PCR múltiple y se aplicaron tanto a co-cultivos como a muestras de alimentos inoculados artificialmente, lechuga orgánica y carne picada. Después de la optimización, la PCR múltiple desarrollada fue capaz de detectar las cuatro bacterias simultáneamente, hasta con una inoculación inicial de 10^0 UFC/mL. En presencia de ambas matrices alimentarias inoculadas, tras la etapa de co-cultivo, la PCR múltiple pudo detectar simultáneamente las 3 bacterias E. coli, S. enterica y L. monocytogenes, mientras que S. aureus se ha detectado por PCR simplex, a partir del mismo extracto de ADN del co-cultivo. Los resultados obtenidos permiten concluir que el uso de un paso de co-cultivo en Agua peptona tamponada, antes de la detección por PCR simple y múltiple, puede facilitar la detección simultánea de las cuatro bacterias potencialmente presentes en las matrices alimentarias. La presencia o ausencia de la bacteria diana en los alimentos se confirma en unas 30 horas, lo que reduce el tiempo requerido para la detección en comparación con el tiempo mínimo de 7 días por método cultural. Asimismo, permite reducir el número de medios de cultivo y reactivos, para el aislamiento e identificación de bacterias que no son detectadas por PCR y que no están presentes en las matrices alimentarias, lo que supone un importante ahorro económico. / [CA] La seguretat alimentària sempre és una prioritat per a la població i en l' actualitat cobra major importància per certes tendències alimentàries, com el consum d' aliments crus i la distribució generalitzada d' aliments orgànics, que poden ser la causa de malalties transmeses per aliments. Per garantir la seguretat alimentària, la detecció d' aquests microorganismes s' ha de realitzar de manera ràpida i eficient. Per a això, el mètode de cultiu microbiològic es considera l' oficial per a la detecció d' aquests patògens. Però, hi ha importants inconvenients, ja que no només requereix més temps, sinó que també és laboriós i consumeix molts recursos. A més, pot ser limitat pel que fa a la detecció de bacteris fisiològicament alterats i/o estressats durant l'emmagatzematge i la conservació. En aquest treball s'ha desenvolupat un protocol senzill i ràpid per a la detecció simultània d' E. coli, L. monocytogenes, S. aureus i S. enterica en aliments, mitjançant la combinació d' una etapa de co-cultiu en medi líquid i la detecció per PCR múltiple. S'ha avaluat l'eficiència de diversos mitjans d'enriquiment i s'ha seleccionat l'aigua de peptona tamponada com el medi òptim per al co-cultiu dels quatre bacteris diana. També es van optimitzar les condicions de PCR múltiple i es van aplicar tant a co-cultius com a mostres d'aliments inoculats artificialment, enciam orgànic i carn picada. Després de l'optimització, la PCR múltiple desenvolupada va ser capaç de detectar els quatre bacteris simultàniament, fins a una inoculació inicial de 10^0 UFC/mL. En presència d' ambdues matrius alimentàries inoculades, després l' etapa de co-cultiu, la PCR múltiple va poder detectar simultàniament els 3 bacteris: E. coli, S. enterica i L. monocytogenes, mentre que S. aureus s' ha detectat per PCR simple, a partir del mateix extracte d' ADN del co-cultiu. Els resultats obtinguts permeten concloure que l' ús d' un pas de co-cultiu en Aigua de peptona tamponada, abans de la detecció per PCR simple i múltiple, pot facilitar la detecció simultània dels quatre bacteris potencialment presents en les matrius alimentàries. La presència o absència del bacteri diana en els aliments es confirma en unes 30 hores, la qual cosa redueix el temps requerit per a la detecció en comparació amb el temps mínim de 7 dies per mètode cultural. Així mateix, permet reduir el nombre de mitjans de cultiu i reactius, per a l' aïllament i identificació de bacteris que no són detectats per PCR i que no estan presents en les matrius alimentàries, la qual cosa suposa un important estalvi econòmic. / [EN] Food safety is a priority for the population and is nowadays more important than ever due to certain dietary trends such as the consumption of raw foods and the widespread distribution of organic foods, which may be the cause of foodborne diseases. To ensure food safety, the detection of these microorganisms must be done quickly and efficiently. Although, the microbiological culture method is considered to be the official method for the detection of these food-borne pathogens, it suffers from significant drawbacks, such as time-consuming, laborious and expensive, in addition it may be limited regarding the detection of physiologically altered and/or stressed bacteria, during storage and preservation. In this work has been developed a simple and rapid protocol for the simultaneous detection of E. coli, L. monocytogenes, S. aureus and S. enterica in food, by combining a liquid co-culture step and detection by multiplex PCR. The efficiency of several enrichment media was evaluated and buffered peptone water was chosen as the optimal medium for the co-culture of the four target bacteria. Then, optimized multiplex PCR conditions were applied to both the co-cultures and the samples of artificially inoculated foods, organic lettuce and ground meat. After optimization, the developed multiplex PCR was able to simultaneously detect the four bacteria, up to an initial inoculation of 10^0 CFU/mL. In the presence of the two inoculated food matrices, after a co-culture step, the multiplex PCR could simultaneously detect the 3 bacteria: E. coli, S. enterica and L. monocytogenes, whereas, S. aureus has been detected by simplex PCR, from the same co-culture DNA template. The results obtained allow conclusion that the use of a co-culture step in Buffered Peptone Water, before detection by simplex and multiplex PCR, can facilitate the simultaneous detection of the four bacteria potentially present in the food matrices. The presence or the absence of the target bacteria in food is confirmed in approximately 30 hours, which reduce the time required for the detection compared to the minimum time of 7 days by cultural method. Also, it allows to reduce the number of culture media and reagents, for the isolation and identification of bacteria that are not detected by PCR and which are not initially present in the food matrices, which represents a significant economic savings. / Boukharouba, A. (2022). Isolation and Identification of Foodborne Pathogens of Special Interest in Food Safety [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/182828

Patógenos de transmisión alimentaria

PCR múltiplex

Enriquecimiento conjunto

Alimentos ecológicos

Alimentos listos para el consumo

Agua de peptona tamponada

Foodborne pathogens detection

Multiplex PCR

Co-enrichment

Organic food

Ready-to-eat food

Buffered Peptone Water

E. coli

L. monocytogenes

Escherichia coli

Salmonella enterica

Staphylococcus aureus

Listeria monocytogenes

MICROBIOLOGIA