Understanding of Salmonella-phytopathogen-environment-plant interactions and development of novel antimicrobial to reduce the Salmonella burden in fresh tomato production

Deblais, Loic

January 2018

No description available.

Plant Pathology

Public Health

Molecular Biology

Environmental Health

Bioinformatics

Biology

Agriculture

Salmonella enterica

tomato production

fresh produce

whole genome sequencing

microbiota

small molecules

growth inhibitors

plant pathogenic bacteria

relative humidity

temperature

grafting

chicken

supernatant

antimicrobials

Typhimurium

rfbV

Assessment of pathogenic bacteria and heavy metal pollution in sediment and water of Kahwa River, Bukavu, Democratic Republic of the Congo

Manegabe, Bahati Justin

02 1900

Anthropogenic activities generate waste products that pollute the environment with bacteria and heavy metals. This research assessed pollution of the Kahwa River, Bukavu Town, DRC with cadmium and lead (HMs) and bacterial enteropathogens. A survey of businesses, households and healthcare facilities showed general use of the river to remove effluent and waste. Indicator organisms were cultured at over 200 cfu/100 ml showing faecal contamination of the river water. Antibiotic resistance was shown by enteropathogenic Vibrio cholerae and Salmonella typhi to ampicillin and cotrimoxazole with some sensitivity shown to ciprofloxacin. River water contained HMs at around 40 times the World Health Organisation limit for drinking water. The bacteria, particularly from river sediment, tolerated HMs up to a concentration of 1.5 mg/ml. The presence in the Kahwa River of antibiotic-resistant pathogens showing tolerance to HMs has serious public health implications / Environmental Management / M.Sc. (Environmental management)

Cadmium

Lead

Pathogenic bacteria

Pollution

Antibiotics

Antibiotic resistance bacteria

Heavy metal resistance bacteria

Indicator bacteria

Kahwa River

Bukavu Town

Kahwa River catchment

Water

Sediment

Democratic Republic of the Congo

551.483096751

Heavy metals -- Environmental aspects

Water -- Pollution

Sediment control South Africa

Protein NMR studies of two systems involved in bacterial pathogenicity / Untersuchungen mittels Protein NMR an zwei Systemen mit Einfluss auf bakterielle Pathogenität

Rumpel, Sigrun

01 November 2006

No description available.

540 Chemie

Mathematics and Computer Science

NMR

Homodimer

Lösungsstruktur

Docken

pathogene Bakterien

Typ III Proteinsekretion

Antibiotikaresistenz

residuale dipolare Kopplungen

paramagnetische Relaxationsverstärkung

NMR

homodimer

solution structure

docking

pathogenic bacteria

type III protein secretion

antibiotic-resistant infections

residual dipolar couplings (RDC)

35.25

35.62

SXL 440: Struktur {Biochemie}

Inhibition du mécanisme de quorum sensing et de la formation de biofilm chez Pseudomonas aerugionsa par des composés bioactifs de Dalbergia trichocarpa (Fabaceae) / Dalbergia trichocarpa, source of natural compounds which affect quorum sensing mechanism and biofilm formation in Pseudomonas aeruginosa

Rasamiravaka, Tsiry

13 June 2014

Depuis quelques décennies, les bactéries pathogènes multi-résistantes aux antibiotiques sont de plus en plus répandues dans le monde. Cette situation a suscité le besoin et l'intérêt de trouver des médicaments antibactériens avec de nouvelles cibles potentiels. La découverte des systèmes de communication de type quorum sensing (QS) régulant la virulence bactérienne représente une des cibles privilégiées pour contrôler les bactéries pathogènes autrement qu’en interférant avec leur croissance bactérienne. Dans l’écosystème naturel, un grand nombre d'organismes (Eucaryotes et Procaryotes) co-existent en synthétisant chacun de leur côté des métabolites secondaires. Les plantes, étant en permanence en contact avec des bactéries, synthétisent des métabolites secondaires capables d’inhiber l’expression des gènes de virulence chez les bactéries sans pour autant affecter ni leur croissance ni leur viabilité. Notre objectif a été de contribuer à la valorisation de la biodiversité malgache en identifiant des plantes et en y isolant les composés actifs présentant une capacité à perturber le mécanisme de QS chez P. aeruginosa PAO1, une bactérie pathogène opportuniste de l’homme, des animaux et des plantes. Dans ce but, nous avons tout d’abord réalisé un criblage d’activité anti-QS de différents flavonoïdes commerciaux. De ce criblage, la narigenine et la naringine ont été sélectionnées pour être les molécules de contrôle positif et négatif des tests d’activité anti-QS, respectivement. Par la suite, 4 espèces de Dalbergia endémique de Madagascar ont fait l’objet de criblage pour leur activité anti-QS. Ce travail a fait ressortir l’activité anti-QS très intéressante de l’écorce de D. trichocarpa à partir de laquelle nous avons isolée le composé actif nommé la coumarate de l’aldéhyde-oléanolique (OALC). Le contrôle naringénine et l’OALC ne présente aucun effets inhibiteurs sur la croissance bactérienne de P. aeruginosa PAO1 et sur l’expression du gène QS-indépendant aceA suggérant une activité d’inhibition spécifiquement liée au QS. Cependant, ces deux molécules présentent des spectres d’inhibition différente. En effet, les deux molécules diffèrent dans le sens que la naringenine n’inhibe pas l’expression du gène gacA et la motilité de type twitching contrairement à l’OALC. Ces résultats suggèrent que l’OALC et la naringénine représente des candidats potentiels pour des investigations in vivo quant à leur effet anti-QS et anti-biofilm sur des modèles infectieux d’organismes supérieurs. Par ailleurs, ils démontrent la richesse des plantes malgaches comme sources de nouvelles molécules anti-virulence ainsi que l’importance de telle investigation afin de renforcer notre arsenal thérapeutique en composé antibactérienne dans la lutte continuelle contre les bactéries pathogènes/Since few decades, multidrug resistant bacteria spread all over the world. This situation gives rise to the need and interest in finding antibacterial drugs with novel potent target. Discovery of communication system termed Quorum Sensing (QS) which regulate bacterial virulence factor represent privileged target in another way than interfering with bacterial growth. In natural ecosystem, many organisms (Eukaryotes and Prokaryotes) produce secondary metabolites. As plants are permanently in contact with bacteria, they have synthetized secondary metabolites which inhibit bacterial virulence gene expression without affecting bacterial viability. Our goal was to contribute to the valorization of Malagasy biodiversity and specifically to identify plants and isolate bioactive compound presenting ability to disrupt QS mechanism in P. aeruginosa, opportunistic pathogen bacteria in plants, animals and human. In this purpose, screening of commercial available flavonoids has been firstly carried out. From this screening, naringenin and naringin have been selected to be used as positive and negative QS inhibitor controls, respectively. Subsequently, Four Malagasy endemic Dalbergia species have been screened for their anti-QS activity. This work pointed out the interesting anti-QS activity of D. trichocarpa bark extract which led to the isolation of oleanolic aldehyde coumarate (OALC) as one major bioactive compound. At the concentration tested, naringenin and OALC did not affect P. aeruginosa PAO1 viability and didn’t reduce QS-independent aceA gene expression suggesting a specific anti-QS activity. However, these two compounds present different inhibition spectrum. Indeed, naringenin didn’t inhibit gacA gene expression and twitching motility contrarily to OALC. These results suggest that OALC and naringenin represent potent candidates for in vivo investigations in their anti-QS and anti-biofilm activity onto eukaryotes infectious model. Besides, this finding demonstrated the potent source for novel anti-virulence compounds of Malagasy flora and the importance of this kind of research to strengthen our antimicrobial therapeutic arsenal with the ongoing struggle against bacterial infection. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Biologie

Sciences exactes et naturelles

Quorum sensing (Microbiology)

Pathogenic bacteria

Virulence (Microbiology)

Dalbergia

Pseudomonas aeruginosa

Détection du quorum

Bactéries pathogènes

Virulence (Microbiologie)

Dalbergia

Pseudomonas aeruginosa

Secondary metabolites

Acyl-homoserine lactone

Coumarate de l’aldéhyde-oléanolique

Flavonoïds

Virulence/ Dalbergia tirchocarpa

Quorum sensing

Multidrug resistance

Naringenin

Naringenine

Multirésistance

Métabolites secondaires

Acyle-homosérine lactone

Flavonoïdes

Dalbergia trichocarpa

Virulence

Oleanolic aldehyde coumarate

Assessment of pathogenic bacteria and heavy metal pollution in sediment and water of Kahwa River, Bukavu, Democratic Republic of the Congo

Manegabe, Bahati Justin

02 1900

Anthropogenic activities generate waste products that pollute the environment with bacteria and heavy metals. This research assessed pollution of the Kahwa River, Bukavu Town, DRC with cadmium and lead (HMs) and bacterial enteropathogens. A survey of businesses, households and healthcare facilities showed general use of the river to remove effluent and waste. Indicator organisms were cultured at over 200 cfu/100 ml showing faecal contamination of the river water. Antibiotic resistance was shown by enteropathogenic Vibrio cholerae and Salmonella typhi to ampicillin and cotrimoxazole with some sensitivity shown to ciprofloxacin. River water contained HMs at around 40 times the World Health Organisation limit for drinking water. The bacteria, particularly from river sediment, tolerated HMs up to a concentration of 1.5 mg/ml. The presence in the Kahwa River of antibiotic-resistant pathogens showing tolerance to HMs has serious public health implications / Environmental Management / M.Sc. (Environmental management)

Cadmium

Lead

Pathogenic bacteria

Pollution

Antibiotics

Antibiotic resistance bacteria

Heavy metal resistance bacteria

Indicator bacteria

Kahwa River

Bukavu Town

Kahwa River catchment

Water

Sediment

Democratic Republic of the Congo

551.483096751

Heavy metals -- Environmental aspects

Water -- Pollution

Sediment control South Africa

An assessment of water quality and occurrence of antibiotic-resistant bacteria in Naauwpoortspruit River, Mpumalanga province, South Africa

Mudau, Khuthadzo Lunsford

03 1900

Decreasing surface water quality in South Africa has become an issue of concern as the population grows, industrial and agricultural activities expand, and environmental pollution increases. Wastewater treatment plants and other anthropogenic activities are liable for releasing raw and inadequately treated effluents into the surface water. Extensive pollution accompanied by the use of disinfectants, pesticides, and other chemical pollutants has been attributed to increased antimicrobial resistance in bacteria such as Escherichia coli in surface water, increasing environmental antibiotic resistance spread. The research aimed to determine water quality and prevalence of antibiotic-resistant bacteria in Naauwpoortspruit River, eMalahleni, Mpumalanga Province. Five sampling sites were selected along the Naauwpoortspruit River and monitoring was done for seven consecutive months. Samples were collected and analysed for physicochemical, microbiological parameters, and susceptibility profile of antibiotic-resistant bacteria using standard methods. Pearson correlation analysis was used to assess the path and strength of the relationship between physicochemical and microbiological parameters in the study area. Results of physicochemical and microbial parameters showed variation throughout the selected study sites. The results revealed a pH range of 4.45 – 7.9 and electrical conductivity levels range of 58.63 - 113.3 mS/m for the different sampling sites during the study period with lower levels detected during the winter period and higher levels in the summer period. Also, water samples showed a high total dissolved solids levels range of 381.1 – 736.45 mg/L and biochemical oxygen demand range of 67.1 – 168 mg/L for the different sampling sites during the study period. The Naauwpoortspruit River had higher levels of ammonia of 33.4 mg/L at Point A during the winter period as compared to 15 mg/L in the summer period. Heavy metals results showed that mercury range of 0.01 – 0.065 mg/L and copper range of 0.001 – 0.0035 mg/L were not compliant with aquatic ecosystem guidelines at all selected sites throughout the study period. The foremost finding of this study was that E. coli were present in all the selected sites at concentrations (>100 cfu/100ml). Elevated concentrations of 5.4 x 103 and 4.2 x 103 cfu/100ml for the total and faecal indicator bacteria were detected from sites downstream to 2.2 x103 and 2.35 x103 cfu/100ml for sites upstream river, in the rainy months. During the dry season, total coliforms, and faecal coliforms concentration of 0.4 x103 to 0.65 x 103 cfu/100ml were detected downstream and 0.25 x 103 and 0.5 x 103 cfu/100ml from upstream, respectively. The physicochemical and microbiological parameters measured at selected sites exceeded acceptable limits and proved unsuitable for applications such as full and intermediate recreational activities, and aquatic ecosystems. The variation in physicochemical parameters results was influenced by both natural processes and human activities such as salinity and Acid Mine Drainage (AMD) within the Naauwpoortspruit River. Using the Kirby-Bauer disc diffusion method, E. coli and faecal coliforms were tested for resistance to antibiotics; ampicillin (10 μg/ml), kanamycin (30 μg), streptomycin (30 μg), chloramphenicol (30 μg), erythromycin (15 μg), ox tetracycline (30 μg), erythromycin (15 μg/ml) and norfloxacin (10 μg). More than 60% of faecal coliform were resistant to at least four of the tested antibiotics and between 60 - 80% of the E. coli isolates were resistant to β lactam. The highest microbial antibiotic resistance (MAR) index value was observed at Site D (0.38 for E. coli) which showed multi-antibiotic resistance. Site D is characterized by wastewater treatment, power generation industries, and agriculture activities. The highest level of MAR observed at Site D indicates the need to control extensive pollution and constantly monitor the changing trends in antimicrobial resistance patterns of these waterborne pathogens. Statistical analysis showed that the development of microbiological parameters loads has a strong correlation with physicochemical parameters due to the association of sampling sites in the river environment. This study shows that the aquatic ecosystem needs constant monitoring to establish their conditions, impacts of pollution activities within the catchment, and input information into sustainable management of the water resources. / Environmental Sciences / M. Sc. (Environmental Science)

Antibiotic resistant-bacteria

Escherichia coli

Multiple antibiotic resistance

Pathogenic bacteria

Water quality

Wastewater treatment

363.7394096827

Inhibition of virulence gene expression in Rhodococcus fascians and Pseudomonas aeruginosa by flavonoïds isolated from the genera Dalbergia and Combretum / Inhibition de l'expression des gènes de virulence chez Rhodococcus fascians et Pseudomonas aeruginosa par des flavonoïdes isolés chez les genres Dalbergia et Combretum

Rajaonson, Sanda

16 December 2011

Plants are continuously confronted with a multitude attack either abiotic but also biotic in nature. Interestingly, despite the abundance of bacteria that plant has to face, only few are able to induce death or disease in the host plant. It is therefore likely that, in addition to secondary metabolites with antimicrobial properties, plants also synthesize secondary metabolites which are able to inhibit the expression of virulence genes in bacteria without affecting either growth or viability, which allows plants to host willingly or not bacterial populations. This work focuses on the identification of such metabolites in Malagasy plants (genera Dalbergia and Combretum) and the demonstration of their inhibitory effect on the expression of virulence genes in two different pathosystems: Rhodococcus fascians (a phytopathogen) and Pseudomonas aeruginosa (an opportunistic pathogen). Thus, two metabolites were isolated using a combination of chromatographic techniques coupled with tests that evaluate the expression of certain genes involved in the virulence mechanisms of these bacteria. The first is a new prenylated isoflavanone, named perbergin, isolated from the bark extract of D. pervillei. It was shown that the perbergin target attR gene expression, encoding a LysR-type transcriptional regulator that plays a key role in regulating the expression of virulence genes of R. fascians and the transition from an epiphytic to a pathogenic lifestyle. Therefore, we have also shown that the expression of all virulence genes known to date in R. fascians is also affected while the expression of genes involved in epiphytic fitness of the bacteria is not altered. In addition, the application of perbergin at the time of infection of plants susceptible to R. fascians shows that this molecule reduces in vivo the virulence of R. fascians, highlighting the potential of perbergin as an anti-infective agent. The second is a flavonoid known as catechin, isolated from the bark extract of C. albiflorum. Catechin significantly inhibits the expression of genes that regulate the mechanism of quorum sensing in P. aeruginosa such as lasI, LasR, rhlI and rhlR but also lasB and rhlA which expression depends on quorum sensing. Therefore, the production of virulence factors such as pyocyanin and elastase is significantly affected. Because of the limited number of our arsenal of antibiotics and their increasing ineffectiveness, the identification of these compounds create a path to an alternative in the fight against pathogenic bacteria and multidrug resistance of pathogenic bacteria to antibiotics. Our results also demonstrate the richness of Malagasy plants as (re)sources of new therapeutic molecules and the importance of widening the range of bacterial targets to be investigated to develop new strategies to fight within the endless war that we are waging against bacteria pathogens.<p><p>Les plantes sont continuellement confrontées à une multitude d’attaques qu’elles soient de nature abiotique ou surtout biotique. Il est intéressant de noter que malgré la multitude de bactéries auxquelles les plantes doivent faire face, seules quelques unes sont capables d’induire la mort ou une maladie chez la plante hôte. Il est dès lors fort probable que, outre les métabolites secondaires ayant des propriétés antimicrobiennes, les plantes synthétisent également des métabolites secondaires capables d’inhiber l’expression des gènes de virulence chez les bactéries sans toutefois affecter ni leur croissance ni leur viabilité, ce qui permet aux plantes de contenir les populations bactériennes qu’elles hébergent de gré ou de force. Ce travail porte sur l’identification de ce type de métabolites dans des plantes malgaches (genres Dalbergia et Combretum) et la démonstration de leurs effets inhibiteurs sur l’expression de gènes de virulence chez deux pathosystèmes différents: Rhodococcus fascians (un phytopathogène) et Pseudomonas aeruginosa (un pathogène opportuniste). Ainsi, deux métabolites ont été isolés en utilisant une combinaison de techniques chromatographiques couplées avec des tests qui évaluent l’expression de certains gènes impliqués dans les mécanismes de virulence de ces bactéries. Le premier est un nouvel isoflavanone prénylé, nommé perbergine, isolé à partir de l’extrait d’écorces de D. pervillei. Il a été montré que la perbergine cible l’expression du gène attR, codant un régulateur transcriptionnel de type LysR qui joue un rôle clé dans la régulation de l’expression des gènes de virulence de R. fascians et qui assure la transition entre un mode de vie épiphyte et le mode pathogène. En conséquence, nous avons également montré que l’expression de l’ensemble des gènes de virulence connu à ce jour chez R. fascians est également affectée alors que l’expression de gènes impliqués dans l’aptitude épiphyte de la bactérie n’est pas altérée. Par ailleurs, l’application de perbergine au moment de l’infection de plantes sensibles à R. fascians montre que cette molécule atténue la virulence de R. fascians in vivo, mettant en exergue le potentiel de la perbergine comme agent anti-infectieux. Le deuxième est un flavonoïde, connu sous le nom de catéchine, isolé de l’extrait d’écorces de C. albiflorum. La catéchine inhibe significativement l’expression des gènes régulateurs du mécanisme du quorum sensing chez P. aeruginosa tels que lasI, lasR, rhlI et rhlR et également lasB et rhlA dont l’expression dépend du quorum sensing. En conséquence, la production des facteurs de virulence tels que la pyocyanine et l’élastase est significativement affectée. Compte tenu de l’appauvrissement de notre arsenal d’antibiotiques et de leur inefficacité croissante, l’identification de ces composés ouvre une voie alternative de lutte contre les bactéries pathogènes et la multirésistance des bactéries pathogènes aux antibiotiques. Nos résultats démontrent également la richesse des plantes malgaches comme (res)sources de nouvelles molécules thérapeutiques et l’importance d’élargir le champ des cibles bactériennes à investiguer pour développer de nouvelles stratégies de lutte dans la guerre sans fin que nous menons contre les bactéries pathogènes. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Biologie

Sciences exactes et naturelles

Virulence (Microbiology)

Rhodococcus

Pseudomonas aeruginosa

Flavonoids

Pathogenic bacteria

Drug resistance in microorganisms

Plants -- Madagascar

Virulence (Microbiologie)

Rhodococcus

Pseudomonas aeruginosa

Flavonoïdes

Bactéries pathogènes

Plantes -- Madagascar

multirésistance aux antibiotiques

régulateurs LysR

Interaction plante-bactérie

gène de virulence

Dalbergia

Combretum

catéchine

perbergine

multidrug resistance to antibiotics

plant-bacteria interaction

flavonoïdes

métabolites secondaires

Rhodococcus fascians

quorum sensing

homoserine lactone

LysR regulators

virulence gene

perbergin

catechin

flavonoïds

secondary metabolites

homosérine lactone