Dissertations / Theses on the topic 'Bacteria Bacteria Drug resistance in microorganisms. Staphylococcus'

Dissertation (Ph.D.)--University of Toledo, 2009.
Typescript. "Submitted in partial fulfillment of the requirements for The Doctor of Philosophy in Biology (Ecology-Track)." Bibliography: leaves 108-126.

A study to assess the potentials of some commensal bacteria that belong to Staphylococcus, Acinetobacter and Stenotrophomonas genera as reservoirs of antibiotic resistance determinants in the environment of Nkonkobe Municipality of the Eastern Cape Province, South Africa, was carried out using standard microbiological and molecular techniques. A total of 120 Staphylococcus isolates which consisted of Staphylococcus haemolyticus (30%), Staphylococcus aureus (23.3%) from pig; Staphylococcus capitis (15%) from goat; Staphylococcus heamolyticus (5%) and Staphylococcus xylosus (15%) from cattle and other Staphylococci (11%) from dead chicken and pigs were isolated. About 23.3% of these isolates were coagulase positive and 76.7% were coagulase negative. This difference in prevalence along coagulase production divide was statistically significant (p < 0.05). Eighty-six Acinetobacter species (Acinetobacter baumannii/calcoaceticus and Acinetobacter haemolyticus) were also isolated from Alice and Fort Beaufort towns samples, while 125 Stenotrophomonas maltophilia isolates were from grass root rhizosphere (96%) and soil butternut root rhizosphere (4%). Between 75-100% of the Staphylococccus species were resistant to Penicillin G, tetracycline, sulphamethaxole and nalidixic acid; about 38 % were methicillin resistant, consisting of 12.6% methicillin resistant Staphylococcus aureus (MRSA) from pig and a total of 12% vancomycin resistant were observed. Also, 12% of the isolates were erythromycin resistant while 40.2 % were resistant to the third generation cephalosporin, ceftazidime. The antibiotic resistance genes vanA, VanB, eryA, eryB, eryC were not detected in all the phenotypically resistant Staphylococccus species, but mec A gene and mph genes were detected. In the Acinetobacter species, a wide range of 30-100% resistance to penicillin G, ceftriazone, nitrofurantoin, erythromycin, and augmentin was observed. Polymerase chain reaction (PCR) revealed the presence of Tet(B) and Tet(39) genes in these species, while Tet (A), Tet(M) and Tet(H) were absent. Also, 9.3% of the Acinetobacter species showed phenotypic production of extended spectrum beta lactamases (ESBLs) while 3.5% were positive for the presence of blaCTX-M-1 genes. The Stenotrophomonas maltophilia isolates showed varying resistance to meropenem (8.9%), cefuroxime (95.6 %), ampicillin-sulbactam (53.9%), ceftazidime (10.7%), cefepime (29.3 %), minocycline (2.2%), kanamycin (56.9%), ofloxacin (2.9%), levofloxacin (1.3%), moxifloxacin (2.8%), ciprofloxacin (24.3%), gatifloxacin (1.3%), polymyxin B (2.9 %), cotrimoxazole (26.1%), trimethoprim (98.6%), aztreonam(58%) and Polymyxin B (2.9 %). The isolates exhibited significant susceptibility to the fluoroquinolones (74.3-94.7 %), polymycin (97.1%) and meropenem (88.1%). Only sul3 genes were the only sulphonamide resistance gene detected among the trimethoprim-sulphamethoxazole resistant isolates. The observed multiple antibiotic resistance indeces (MARI) of >2 for Staphylococcus species, Acinetobacter species and Stenotrophomonas maltophilia suggest that they have arisen from high-risk sources where antibiotics are in constant arbitrary use resulting in high selective pressure. The presence of tetracycline resistance genes in Acinetobacter species justifies the observed phenotypic resistance to oxytetracycline and intermediate resistance to minocycline. High phenotypic resistance and the presence of some resistance genes in Staphylococcus species is a possible threat to public health and suggests animals to be important reservoirs of antibiotic resistance determinants in the environment. Indiscriminate use of antibiotics induces this kind of antibiotic resistance and should be discouraged. Personal hygiene is encouraged as it reduces the load of Acinetobacter species contacted from the environment that may be difficult to control. Commensal Stenotrophomonas maltophilia are as important as their clinical counterparts due to their roles in opportunistic infection, antibiotic resistance and their associated genes, especially sul gene. Personal hygiene is hereby advocated especially when in contact with soil, plants and plants’ rhizospheric soil

Thesis (MTech (Biomedical Sciences))--Cape Peninsula University of Technology, 2015.
Wastewater treatment plants (WWTPs) are designed to remove/decrease conventional pollution parameters from the wastewater influent, so that the final effluent (run off) does not compromise the receiving surface water source. However, as hospital and clinical effluent may form part of the initial influent at a WWTP, bacteria may be exposed to various antibiotics or pharmaceuticals throughout the various stages of primary, secondary and tertiary processes utilised to remove or reduce the level of pollutants. Numerous studies have then indicated that WWTPs have become potential reservoirs for antibiotic resistant bacteria (ARB) and due to ineffective treatment practices, antibiotics are being released into the environment. Consequently, research has shown that relatively low concentrations of these compounds still promotes the development of bacterial resistance, which potentiates the rapid spread of ARB in the environment. The primary aim of this study was thus to identify and trace the antibiotic resistant strains of Staphylococcus aureus (S. aureus), Escherichia coli (E. coli) and Klebsiella pneumoniae (K. pneumoniae) throughout the Stellenbosch WWTP. This was done in order to determine the persistance of the ARB organisms at the various stages of treatment and to ascertain which identification and antibiotic resistance detection methods are ideal for the routine application and detection of these organisms.
National Research Foundation

Theses (M.S.)--Marshall University, 2006.
Title from document title page. Includes abstract. Document formatted into pages: contains vii, 73 p. including illustrations and maps. Bibliography: p. 25-28.

Resistance to antimicrobials is a well-known phenomenon leading to difficulties in the treatment of infectious diseases. The genetic determinants of such resistance are in general well understood: plasmids, transposons, insertion sequences and integrons are the most frequently related genetic elements. The word epigenetics refers to changes in the phenotype or in the gene expression caused by mechanisms other than underlying DNA sequence. In some cases these changes can remain for generations. Serratia marcescens is an enterobacterium characterized by its natural (intrinsic) resistance to most antibiotics. It is also a relevant opportunistic pathogen which has been involved in several pathologies such as urinary tract infections, prostheses infections, cellulitis, bacteremia and others. P. aeruginosa is a Gram-negative bacterium considered one of the major nosocomial pathogens worldwide. It causes several infections such as wound and burn infections as well as respiratory tract infections mostly affecting cystic fibrosis patients. An increasing prevalence of infections caused by multidrug-resistant (MDR) isolates has been reported in many countries and is actually a cause of concern. Both, P. aeruginosa and S. marcescens are relevant nosocomial pathogens. Some of the classic antimicrobials used to treat these pathogens are out-of-date and several of the new drugs available have already become targets for bacterial mechanism of resistance. Environmental conditions exert high pressure not only in the selection of genes encoding resistance to antibiotics or integron fixation in bacterial genomes or plasmids and other mobile elements transmission, but also in the expression of these potentialities that leads to resistance. Thus the role of epigenetics remains to be investigated. In addition it is well known that bacteria causing infections are naturally forming part of biofilms instead the planktonic way of life normally assumed to be in laboratory conditions. The aim of this thesis was the study of unconventional mechanisms of antimicrobial resistance contributing to MDR phenotypes in both S.marcescens and P. aeruginosa. Also the exploration of changes in antimicrobial susceptibilities of Serratia marcescens in the last 50 years by comparing isolates collected between 1945 and 1950, and current isolates. ¬The main conclusions obtained from this study are: 1. The resistome of Serratia marcescens did not change significantly during the antibiotic era. 2. Antibiotic withdrawing tends to restore original susceptible phenotypes, irrespective to the molecular mechanism involved in resistance. 3. None of Serratia strains studied presented integrons, any extended spectrum ß-lactamases. 4. Phenotypically determination of susceptibilities of old strains inactive during the last 60 years have confirmed results obtained by metagenomics i.e. the genes of resistance already existed before antibiotics discovery and use. 5. Multiresistant Pseudomonas aeruginosa harbored class 1 integrons containing a cassette encoding aminoglycoside adenylyltransferase (aadB). 6. Multiresistant Pseudomonas aeruginosa overexpressed MexAB-OprM and MexXY efflux machinery. 7. CCCP use should be avoided in experiments performed with P. aeruginosa and probably in other aerobic bacteria. 8. Meropenem induces the formation of aberrant long rods which can survive, accumulate less antibiotic than normal bacteria, and can revert to normal forma when antibiotic pressure disappears. 9. Colistin, the last therapeutic option to fight against Pseudomonas infections in cystic fibrosis patients, is normally active although cases of resistance have arisen recently. 10. Resistance to colistin seems to be mediated by lipopolysaccharide singular properties. 11. Colistin induces injuries in lipid bilayers, which can be studied by means of planar black lipid bilayer techniques. Preliminary results showed the ability of colistin to induce transient channels in the bilayers, with some dependence to voltage. 12. Recovery of susceptibility to imipenem is slower than acquision of resistance, since the selective advantage conferred by imipenem resistance in the presence of the antimicrobial is strong whereas OprD expression is likely evolutionarily advantageous only under certain and unknown environmental conditions.
Es van explorar els mecanismes no convencionals de resistència als agents antimicrobians que contribueixen a l’aparició de fenotips multiresistents en els bacteris Gram-negatius Serratia marcescens i Pseudomonas aeruginosa. Es van examinar també els canvis en la susceptibilitat als agents antimicrobians en S. marcescens durant els darrers 50 anys, comparant soques aïllades entre els anys 1945-1950 y soques actuals. ¬Les principals conclusions obtingudes d’aquest estudi són les següents: 1. El resistoma de Serratia marcescens no ha canviat significativament des de l’era pre-antibiòtica fins l’actualitat. 2. La retirada dels antibiòtics tendeix a recuperar els fenotips de susceptibilitat originals, independentment del mecanisme molecular implicat en la resistència. 3. Cap de las soques de Serratia estudiades va presentar integrons ni tampoc ß-lactamases d’espectre estès. 4. La determinació fenotípica de les susceptibilitats de las soques “antigues” de Serratia inactives durant 60 anys ha confirmat els resultats obtinguts mitjançant metagenòmica, és a dir, els gens de resistència als antibiòtics ja existien amb anterioritat al descobriment i ús dels antibiòtics. 5. En les soques clíniques de P. aeruginosa multiresistents es va detectar un integró de classe 1 que contenia el cassette gènic aadB, que codifica l’enzim aminoglicòsid 2’-O- adeniltransferasa, que confereix resistència a gentamicina, tobramicina i kanamicina. 6. Les soques multiresistents de P. aeruginosa van sobreexpressar els sistemes de reflux MexAB-OprM i MexXY-OprM. 7. L’ús de l’inhibidor de bombes de reflux CCCP s’hauria d’evitar als experiments realitzats amb P. aeruginosa i probablement amb altres bacteris de metabolisme aeròbic. 8. El meropenem indueix la formació de llargs bacils aberrants capaços de sobreviure en presència de l’antibiòtic. Aquests bacils acumulen menys antibiòtic que els bacteris normals, i poden revertir a la forma normal quan s’elimina la pressió selectiva. 9. La colistina, la última alternativa terapèutica per lluitar contra P. aeruginosa en pacients amb fibrosis quística, és normalment efectiva, encara que recentment han sorgit casos de resistència a aquest agent antimicrobià. 10. La resistència a colistina sembla estar causada per propietats singulars del lipopolisacàrid. 11. La colistina produeix danys en les membranes lipídiques que poden ser estudiats mitjançant tècniques de Black lipid bilayer. Estudis preliminars van mostrar la capacitat de la colistina para induir canals transitoris en les bicapes lipídiques, amb certa dependència de voltatge. 12. La recuperació de la susceptibilitat a l’imipenem en P. aeruginosa és més lenta que l’adquisició de resistència, donat que l’avantatge selectiva conferida per la resistència a l’imipenem en presència de l’agent antimicrobià és forta, mentre que l’expressió d’ OprD és probablement avantatjosa solament sota certes i desconegudes condicions ambientals.
Se exploraron los mecanismos no convencionales de resistencia a agentes antimicrobianos que contribuyen a la aparición de fenotipos multiresistentes en las bacterias Gram-negativas Serratia marcescens y Pseudomonas aeruginosa. Se examinaron también los cambios en la susceptibilidad a los agentes antimicrobianos en S. marcescens en los últimos 50 años, comparando cepas aisladas entre los años 1945-1950 y cepas actuales. ¬Las principales conclusiones obtenidas de este estudio son las siguientes: 1. El resistoma de Serratia marcescens no ha cambiado significativamente desde la era pre-antibiótica hasta la actualidad. 2. La retirada de los antibióticos tiende a recuperar los fenotipos de susceptibilidad originales, independientemente del mecanismo molecular implicado en la resistencia. 3. Ninguna de las cepas de Serratia estudiadas presentó integrones ni tampoco ß-lactamasas de espectro extendido. 4. La determinación fenotípica de las susceptibilidades de las cepas “antiguas” de Serratia inactivas durante 60 años ha confirmado los resultados obtenidos mediante metagenómica, es decir, los genes de resistencia a los antibióticos ya existían con anterioridad al descubrimiento y uso de los antibióticos. 5. En las cepas clínicas de P. aeruginosa multiresistentes se detectó un integrón de clase 1 que contenía el cassette génico aadB, que codifica la enzima aminoglicósido 2’-O- adeniltransferasa, que confiere resistencia a gentamicina, tobramicina y kanamicina. 6. Las cepas multiresistentes de P. aeruginosa sobreexpresaron los sistemas de reflujo MexAB-OprM y MexXY-OprM. 7. El uso del inhibidor de bombas de reflujo CCCP se debería evitar en los experimentos realizados con P. aeruginosa y probablemente con otras bacterias de metabolismo aeróbico. 8. El meropenem induce la formación de largos bacilos aberrantes capaces de sobrevivir en presencia del antibiótico. Estos bacilos acumulan menos antibiótico que las bacterias normales, y pueden revertir a la forma normal cuando se elimina la presión selectiva. 9. La colistina, la última alternativa terapéutica para luchar contra P. aeruginosa en pacientes con fibrosis quística, es normalmente efectiva, aunque recientemente han surgido casos de resistencia a este agente antimicrobiano. 10. La resistencia a colistina parece estar mediada por propiedades singulares del lipopolisacárido. 11. La colistina produce daños en las membranas lipídicas que pueden ser estudiados mediante técnicas de Black lipid bilayer. Estudios preliminares mostraron la capacidad de la colistina para inducir canales transitorios en las bicapas lipídicas, con cierta dependencia de voltaje. 12. La recuperación de la susceptibilidad al imipenem en P. aeruginosa es más lenta que la adquisición de resistencia, dado que la ventaja selectiva conferida por la resistencia al imipenem en presencia del agente antimicrobiano es fuerte, mientras que la expresión de OprD es probablemente ventajosa sólo bajo ciertas y desconocidas condiciones ambientales.

Thesis (MTech (Medical Technology))--Cape Technikon, 1998.
This study was undertaken to investigate resistance to aminoglycoside antibiotics and the transfer of resistance in selected Gram negative bacilli in hospitals in the Greater Durban area in order to determine whether the development of resistance in this region was similar to that found in other countries and whether it was the same in the hospitals in the region. It was intended that the study might expose the existence of nosocomial pathogens of a particular strain or endemic plasmids responsible for aminoglycoside antibiotic resistance. Strains of Klebsiella, Enterobacter and Serratia species and Escherichia coli resistant to gentamicin, tobramycin, netilmicin or amikacin were obtained. Resistance of the isolates obtained to the above aminoglycoside antibiotics was confirmed using a disc diffusion technique. Resistance mechanisms were initially assigned on the basis of resistance to these four aminoglycoside antibiotics. In approximately 50% of the isolates, including donor isolates and their respective transconjugants, resistance mechanisms were confirmed or revised on the basis of a changed resistance profile to a range of 12 aminoglycoside antibiotics in conjunction with DNA/DNA hybridization tests. Bacterial conjugation studies were performed on selected isolates to investigate the transfer of aminoglycoside resistance from Klebsiella pneumoniae isolates to recipient Escherichia coli. Plasmid profiles of all isolates and Escherichia colitransconjugants were compared to establish similarities. Isolates in three of the four genera of bacteria and all isolates collectively, demonstrated the greatest incidence of resistance to tobramycin. Amikacin resistance was, in all groups of isolates, the least frequently encountered. Collectively, the most frequent mechanisms of resistance were the AAC(3)-V and AAC(6')-1 enzymes One large hospital showed a high frequency of the AAC(3)-V modifying enzyme while in other hospitals a wider range of enzyme resistance mechanisms were evident. Plasmid profiles were generally dissimilar within and between different genera and the different hospitals.
Mangosuthu Technikon Research Fund

Garcinia kola is one of the plants used in folklore remedies for the treatment of microbial infections. Bacterial resistance to commonly used antibiotics has necessitated the search for newer and alternative compounds for the treatment of drug resistant microbial infections. This study focuses on the bioactivity of G. kola seeds on Streptococcus pyogenes (ATCC 49399), Staphylococcus aureus (NCTC 6571), Plesiomonas Shigelloides (ATCC 51903) and Salmonella typhimurium (ATCC 13311), organisms which can cause illnesses from mild to severe with potentially fatal outcomes. The crude ethyl acetate, ethanol, methanol, acetone and aqueous extracts were screened by agar-well diffusion method and the activities of the extract were further determined by Minimum Inhibitory Concentration (MIC) and Minimum Bactericidal Concentration (MBC) assays. The inhibition zones ranged from 0 - 24 mm, while MIC and MBC of the extract ranged between 0.04 - 1.25 mg/mL and 0.081 - 2.5 mg/mL respectively. Chloroform/ Ethyl Acetate/ Formic acid (CEF) solvent system separated more active compounds followed by Ethyl Acetate/ Methanol/ Water (EMW) and Benzene/ Ethanol/ Ammonium Hydroxide (BEA). The extracts were fractionated by Thin Layer Chromatography (TLC). Bioautography was used to assess the activity of the possible classes of compounds present in the more active extracts. Column chromatography was used to purify the active compounds from the mixture while Gas Chromatography-Mass Spectrometry (GC-MS) was used to identify the phyto components of the fractions. The MIC of the fractions ranged between 0.0006 - 2.5 mg/mL. CEF 3 (F3), CEF 11 (F11) and CEF 12 (F12) revealed the presence of high levels fatty acids Linoleic acid, 1, 2-Benzenedicarboxylic acid and 2, 3-Dihydro-3, 5-dihydroxy-6-methyl, respectively. The results obtained from this study justify the use of this plant in traditional medicine and provide leads which could be further exploited for the development of new and potent antimicrobials.

Thesis (MSc (Biomedical Technology))--Cape Peninsula University of Technology, 2017.
Background: It is well established that Klebsiella pneumoniae (K. pneumoniae) is an opportunistic pathogenic organism that has been frequently identified as the cause of nosocomial and community acquired infections. Furthermore, studies have shown that over the last few decades strains of the genus Klebsiella have systematically developed resistance to numerous antibiotics. Aims and Methods: The primary aim of this study was to investigate the prevalence of K. pneumoniae in nosocomial and community isolates in the Western Cape province of South Africa. Various identification techniques such as the polymerase chain reaction (PCR) using the API 20 E, the VITEK®2 system, primers specific for the 16S-23S rDNA ITS region and the Matrix-assisted laser desorption/ionization Time of Flight Mass Spectrometry (MALDI-TOF MS) were compared for the identification of this pathogen. The VITEK 2 system was used to detect antibiotic resistant profiles of the K. pneumoniae isolates and to identify the extended spectrum beta-lactamase (ESBL) phenotypic among these isolates. The PCR was used to detect Beta-lactam genes viz. CTX-M (blaCTX-M), TEM (blaTEM) and SHV (blaSHV) respectively in both the genome and plasmid DNA of K. pneumoniae using gene specific primers. Results: In total 57 agar plate bacterial cultures or glycerol stock bacterial cultures were obtained during 2011. Of the 57 isolates, the API 20 E test identified 47 (82.5%) of the isolates (n = 57) as K. pneumoniae while 10 isolates (17.5%) were identified as Raoultella species. The VITEK 2 method and PCR identified all 57 isolates as K. pneumoniae (100%). Of the isolates, 82.5% (47/57) were positively identified as Klebsiella species, 14% (8/57) were identified as Klebsiella variicola and 3.5% (2/57) were shown as no reliable identification (NRI) when using the MALDI-TOF MS. Examination of the 57 isolates using primers specific for the CTX-M (blaCTX-M), TEM (blaTEM) and SHV (blaSHV) respectively showed the following: PCR amplicons for the TEM gene were produced successfully for 46 (81%) of the 57 isolates included in this project, while 11 (19%) of the samples did not yield any TEM amplicons; PCR amplicons for the blaSHV gene were obtained successfully for 56 (98%) of the 57 DNA samples, while 1 sample (2%) did not yield any SHV amplicons; and PCR amplicons for the blaCTX-M gene were produced successfully by 89% (n = 51) of the DNA samples included in this project, while 11% (n = 6) did not yield any CTX-M amplicon. Extended-spectrum beta-lactamase phenotypes had been confirmed in 84% (n = 48) K. pneumoniae isolates while nine isolates were found to be non-ESBL. Resistance rates for these 48 isolates were high and showed resistance patterns of: Amoxicillin/Ampicillin, Amoxycillin/Clavulanate, Ceftriaxone/Cefotaxime, Cefuroxime/Cefprozil and Ceftazidime (100%, n = 48); Piperacillin/Tazobactam and Cefoxitin (98%, 47/48); Cefepime (96%, 46/48); Aztreonam (94%; 45/48); Tobramycin (81%, 39/48); Gentamycin and Ciprofloxacin (77%, 37/48); Trimethoprim/Sulfamethoxazole (67%, 32/48); and Tigecycline (25% 12/48). Conclusion: For the analysis by all four methods employed, a total agreement of 68.4% was obtained, indicating the positive identification of K. pneumoniae in 39 of the 57 samples analysed. An average agreement of 28.1% was then obtained for the comparison of results generated for three of the methods utilised, while a 3.5% average agreement was obtained for at least two methods. Furthermore, all four methods agreed that 82.5% of the isolates were Klebsiella species while three methods agreed that 17.5% of the isolates were Klebsiella species. Based on the results obtained in the current study, PCR and VITEK 2 were the methods of choice for the identification of K. pneumoniae. The current study also showed, that ESBL-K. pneumoniae strains are present in the Western Cape province, South Africa; with high resistance profiles to numerous antibiotics including the Cephalosporins.

Sortase A is a housekeeping enzyme of Gram-positive bacteria that catalyses the anchoring of surface proteins to the bacterial peptidoglycan. The enzyme works to establish an interaction between bacteria and host cells and is essential for pathogenesis. This makes Sortase A a potential suitable target for inhibition, in order to treat bacterial infections. In this degree project Sortase A from Staphylococcus aureus was explored and potential inhibitors were investigated by performing enzyme activity and bacterial binding assays. A robust FRET assay was developed and optimized for a recombinant version of the enzyme and serves as a good starting point for studying inhibition.

Abstract Medicinal plants have been for long remedies for human diseases because they contain components of therapeutic value. The growing problem of antibiotic resistance by organisms demands the search for novel compounds from plant based sources. The present study was aimed at evaluating the bioactivity and phytochemical analysis of Hydnora africana on clinical and standard strains of Helicobacter pylori (PE 252C and ATCC 43526), Aeromonas hydrophila ATCC 35654, and Staphylococcus aureus NCT 6571 in an effort to identify potential sources of cheap starting materials for the synthesis of new drugs against these strains. Ethyl acetate, acetone, ethanol, methanol, and water crude extracts of H. africana were screened for activity against the test organisms using the agar well diffusion assay. The Minimum Inhibitory Concentration (MIC50) and Minimum Bactericidal Concentration (MBC) of the most potent extracts were determined by the microdilution method, followed by qualitative phytochemical analysis. Results were analyzed statistically by ANOVA one - way test. Different concentrations (200,100, 50mg/mL) of the methanol, acetone, ethanol and ethyl acetate extracts showed activity against S. aureus and A. hydrophila while for H. pylori, only methanol and ethyl acetate extracts were active; water showed no activity for all studied bacterial pathogens. Mean zone diameter of inhibition which ranged from 0-22mm were observed for all test bacterial pathogens and 14-17mm for ciprofloxacin. The activity of methanol and ethyl acetate extracts were statistically significant (P< 0.05) compared to all the other extracts. MIC50 and MBC ranged from 0.078 – 2.5mg/mL, 0.78-25mg/mL respectively for all tested bacterial pathogens. For ciprofloxacin, the MIC50 and MBC ranged from 0.00976 – 0.078mg/mL and 0.098– 0.78mg/mL respectively. There was no statistically significant difference between extracts (methanol, acetone, ethanol, ethyl acetate) and the control antibiotic (ciprofloxacin) (P> 0.05). Qualitative phytochemical analysis confirmed the presence of alkaloids, saponins, steroids, tannins and flavonoids in the methanol, acetone,ethanol and ethyl acetate extracts. The results demonstrate that H. africana may contain compounds with therapeutic potentials which can be lead molecules for semi-synthesis of new drugs.

Pseudomonas aeruginosa and Staphylococcus aureus are nosocomial opportunistic pathogens causing a wide variety of both acute and chronic infections, such as pneumonia, bacteraemia, and urinary tract infections. Immunocompromised patients and those suffering cystic fibrosis show a particularly high susceptibility to infection by these microorganisms. Moreover, the increasing frequency of the isolation of multidrug-resistant bacteria (MDR) is a major cause for concern. Polymyxins are cyclic peptides with antimicrobial action against Gram-negative bacteria that have been available since 1949, although they were left largely unused during the seventies because of their nephrotoxicity and the availability of less toxic antimicrobials to which bacteria had not yet developed resistance. The most known polymyxin is colistin; like other cationic polypeptides, colistin is an amphipathic compound and, it is believed that this amphipathic nature is relevant to its activity against bacteria. Hence, the aim of this thesis was to synthesize antimicrobial peptides inspired in colistin scaffold and explore their antimicrobial activity against multidrug resistant bacteria such as P. aeruginosa and S. aureus, determine possible synergistic interactions with commercial antibiotics and explore their mechanisms of action. Synthesis: The main attempt in this first part was to synthesize peptides in solid phase by the Fmoc/tBu method. After synthesis, peptides were purified by preparative HPLC method and finally, peptides were characterized by MALDI-TOF. Antimicrobial activity: This part focused on the study the antimicrobial capacity of our peptides against multidrug resistant bacteria, specially P. aeruginosa and S. aureus. First peptide (AMP38) showed an acceptable antimicrobial activity against P. aureuginosa. Moreover, several imipenem-resistant P. aeruginosa were tested with AMP38 and imipenem showing a quite considerable synergistic action, both with planktonic and sessile bacteria. In addition, two peptides of the same family (CAMP113 and CAMP207) were tested against S. aureus (both planktonic and sessile) showing a surprising antimicrobial action since Gram- positive bacteria are regarding as naturally resistant to polymyxins. Moreover, these peptides showed an inordinately high selectivity index. Mechanisms of action: The final part of this doctoral thesis focused on an initial exploration of mechanisms of action of peptides above mentioned. Transmission electronic microscopy (TEM) assays were performed in order to elucidate possible interactions between peptides and outer membrane of Gram-negative bacteria. In addition, isothermal titration calorimetry assays were carried out to determine peptide-teichoic acid interactions. Data obtained from these studies are promising, being able to be a therapeutic alternative for infections produced by multidrug resistant bacteria.
Pseudomonas aeruginosa y Staphylococcus aureus son patógenos nosocomiales oportunistas causantes de una gran variedad de infecciones tanto crónicas como agudas, tales como neumonía, bacteriemia e infecciones del tracto urinario. Los pacientes inmunocomprometidos y aquellos que padecen fibrosis quística muestran una susceptibilidad particularmente alta a infectarse por estos microorganismos. Además, la mayor frecuencia de aislamientos de P. aeruginosa y S. aureus resistentes a múltiples fármacos (MDR) es una causa importante de preocupación. Las polimixinas son péptidos cíclicos con capacidad antibiótica contra las bacterias Gram- negativas que han estado disponibles desde 1949, aunque se dejaron en gran parte de usar durante los años setenta debido a su nefrotoxicidad y a la disponibilidad de otros antimicrobianos menos tóxicos a los cuales las bacterias aún no habían desarrollado resistencias. La polimixina más conocida es la colistina e, igual que otros polipéptidos catiónicos es un compuesto anfipático. Se cree que esta naturaleza anfipática es relevante en su actividad contra las bacterias. Por lo tanto, el objetivo de esta tesis fue sintetizar péptidos antimicrobianos inspirados en el esqueleto molecular de la colistina y explorar su actividad antimicrobiana contra bacterias resistentes a múltiples fármacos como P. aeruginosa y S. aureus, determinar posibles interacciones sinérgicas con antibióticos comerciales y realizar un primer acercamiento a sus mecanismos de acción. SÍNTESIS: El principal objetivo de esta primera parte fue sintetizar los péptidos en fase solida por el método Fmoc/tBu. Después de la síntesis, los péptidos se purificaron por el método de HPLC preparativo y, finalmente los péptidos se caracterizaron por MALDI-TOF. ACTIVIDAD ANTIMICROBIANA: Esta parte se centró en el estudio de la capacidad antimicrobiana de nuestros péptidos contra bacterias multirresistentes, especialmente P. aeruginosa y S. aureus. El primer péptido (AMP38) mostró una actividad antimicrobiana aceptable frente a P. aeruginosa. Además, se probaron varias cepas de P. aeruginosa resistentes a imipenem con AMP38 mostrando una actividad sinérgica bastante considerable, tanto en bacterias planctónicas como sésiles. Adicionalmente, se realizaron ensayos con dos péptidos de la misma familia (CAMP113 y CAMP207) frente a S. aureus (tanto planctónicos como sésiles) mostrando una acción antimicrobiana sorprendente, ya que las bacterias Gram-positivas como S. aureus se consideran naturalmente resistentes a las polimixinas. MECANISMOS DE ACCIÓN: La parte final de esta tesis doctoral se centró en una exploración inicial de los mecanismos de acción de los péptidos mencionados anteriormente. Se realizaron ensayos de microscopía electrónica de transmisión (TEM) para aclarar las posibles interacciones entre los péptidos y la membrana externa de las bacterias Gram-negativas. Además, se realizaron ensayos de calorimetría de titulación isotérmica para determinar las interacciones péptido-ácido teicoico. Los datos obtenidos de estos estudios son prometedores, pudiendo ser una alternativa terapéutica para las infecciones producidas por bacterias resistentes a múltiples fármacos.

Rapidly emerging strains of bacteria resistant to most advanced antibiotics have become issues of very important public health concern. Research currently directed towards marine actinomycetes presents a vast potential for new compounds that could be able to safely and effectively target resistant species. In this regard, ten putative Streptomyces strains isolated from the Nahoon beach were selected and assessed for antibiotic production and activity against a wide range of bacteria including reference strains, environmental strain and clinical isolates. The ethyl acetate extracts of the putative Streptomyces isolates showed activities against at least 6 and up to 26 of the 32 test bacteria. Inhibition zones were found to range between 9-32 mm diameters at a concentration of 10 mg/ml. The minimum inhibitory concentrations (MICs) of the crude extracts ranged from 0.039 - 10 mg/ml and the least minimum bactericidal concentration (MBC) demonstrated was 0.625 mg/ml against a reference strain Staphylococcus aureus ATCC 6538. Time kill kinetics of all extracts revealed bacteristatic and bactericidal activities. Average Log reductions in viable cell counts for all the extracts ranged from 0.86 Log10 and 3.99 Log10 cfu/ml after 3 h interaction and 0.01 Log10 and 4.86 Log10 after 6 h interaction at MIC, 2 × MIC, 3 × MIC and 4 × MIC concentrations. Most of the extracts were speedily bactericidal at 3 × MIC and 4 × MIC resulting in over 50 % elimination of most of the test bacteria within 3 h and 6 h interaction. The partial characterization of the crude extracts by IR spectral analysis revealed possibility of terpenoid, long chain fatty acids and secondary amine derivatives compounds in the extracts. It is therefore recommended that further investigation should address the relationship between the structure of the active component of the extracts and the broad spectrum activity, as well as a rapid method for large scale production and purification and whether this group of antibiotics has any application in managing human infectious disease.

One hundred and thirty-six Salmonella enterica strains, isolated from humans, animals, environmental and plant sources in Australia from 23 serovars, were examined for the streptomycin resistance gene strA and strB, the sulfonamide resistance gene sul2, and the tetracycline resistance gene tetA(A) and tetA(B). Thirteen strains were identified as containing the strA-strB genes located on the transposon Tn5393. S. enterica serovar Hadar accounted for 11 of these strains, 6 of which were isolated from humans and 5 were from ducks. This investigation is therefore the first report of the Tn5393 transposon being detected in bacterial strains from a human source in Australia.RSF1010 plasmids were identified and extracted from 4 S. enterica strains, and were further confirmed by restriction enzyme profiling using PstI, SspI and EcoRV. Small non-conjugative plasmid p9123 was extracted and characterised from 3 of the S. enterica strains and also confirmed by restriction enzyme digestion. An RSF1010-like plasmid was also identified in 3 of the strains. This plasmid was found to be approximately 2.6 kb larger than RSF1010, and possibly derived from the RSF1010 plasmid via insertion of the tetracycline resistance gene tetA(A) between strB and mobC genes.An IS26-strB-strA-sul2-repC-repA-IS26 antibiotic resistance region was identified in 33 S. enterica strains, among these were 23 serovar Typhimurium isolates, 8 serovar Bovismorbificans, 1 serovar Senftenberg and 1 isolate where the serovar could not be conclusively identified. The 23 Typhimurium strains were further characterised by PCR and Southern hybridisation analysis using a blaTEM gene probe. The analysis identified two classes of antibiotic resistance gene clusters. Eleven S. enterica serovar Typhimurium strains harboured an IS26-strB-strA-sul2-repC-repA-IS26-blaTEM-1-IS26 antibiotic resistance gene cluster and another 10 S. enterica serovar Typhimurium strains contained an IS26-strB-strA-sul2-repC-repA-IS26-blaTEM-1 gene cluster, without the IS26 element downstream of the blaTEM-1 gene. Two strains contain elements of these gene clusters but further investigation is needed to fully identify these.Further linkage PCR amplifications revealed that the IS26-strB-strA-sul2-repC-repA-IS26-blaTEM-1-IS26 antibiotic resistance gene cluster was possibly inserted into the 3P-CS of a class 1 integron (In4 type) and truncated the 3P-CS region. Three derivatives were identified, of which the dfrA5-intI1 type was most commonly found downstream of the blaTEM-1-IS26 region. Southern hybridisation analysis using an IS200 gene probe revealed that strains which contain different antibiotic resistance gene clusters also display different but related IS200 profiles.The antibiotic resistance gene clusters of 19 S. enterica serovar Typhimurium strains were transferred to an E. coli 294 Rifr recipient either by direct mating or triparental mating methods. These experiments confirmed that the antibiotic resistance gene clusters were located on conjugative or mobilisable plasmids. The antibiotic resistance gene clusters of 4 S. enterica serovar Typhimurium strains could not be transferred to the E. coli 294 Rifr recipient. These experimental results suggest that the antibiotic resistance gene cluster of IS26-strB-strA-sul2-repC-repA-IS26-blaTEM-1-IS26 might move as one genetic element between distinct plasmid backbones.

Due to increased plant resistance to the existing antibiotics produced, there is a need to develop alternatives. Nonribosomal peptides (NRPs) are important plant phytopathogens synthesized by nonribosomal peptide synthetases (NRPSs). In this study, a newly sequenced Bacillus strain Bacillus atrophaeus UCMB 5137 (63Z), found to have increased phytopathogenic activity, was investigated to gain insights to the possible reason behind this activity. NRPS modules were identified using a novel script that can act on unannotated, raw DNA sequences. The Structure Based Sequence Analysis Webserver was used to identify the amino acids incorporated into the final NRP, which were compared to the NRP database. Five NRPSs were found within the strain; fengycin/plipstatin, mycosubtilin, surfactin, bacillibactin and bacitracin. Some of the modules usually present for these NRPSs were not present in the test strain and only a few modules were found. A phylogenetic study was carried out and the topologies of the trees showed that genes were not transferred horizontally. It did, however, lead to the hypothesis that different NRPS genes are under different adaptive evolutionary pressures. Only slight conformational changes between L and D-conformation of amino acids were seen between the test and neighboring strains. All of the linker and terminal regions of synthetases were found to exhibit a large amount of conservation overall. Homology modeling was performed on the test strain on selected modules, TE and A-domains of fengycin and mycosubtilin synthetases. TE-domains between the different synthetases are different and specific for the NRP they facilitate release for. The NRPS from which the A-domain originates also influences substrate specificity as well as the module in which the A-domain occurs within the NRPS. Binding pockets of A-domains of differing substrate specificity were compared. Future work will include; refinement of the models and docking studies within the A-domain binding pocket.
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Aquaculture is the fastest growing food industry in the world and it accounts for roughly half of the world's fish supply. The majority of global aquaculture production occurs in freshwater systems that are increasingly subject to multiple uses by different stakeholders. Given the overall scarcity of freshwater on a global scale, freshwater aquaculture will face increasing environmental constraints that will demand an ever better understanding of its potential impacts on the aquatic environment and human health. This thesis consists of a series of studies that, collectively, contribute to further our understanding on the effects of freshwater aquaculture effluents on aquatic ecosystems, on the effects and environmental safety of antibiotics used in freshwater aquaculture on aquatic bacterial communities and on the link between antibiotic pollution and antibiotic resistance. Chapter 2 reviews the effects of freshwater aquaculture effluents on stream ecosystems using land-based salmonid farms as a case study. In this chapter I discuss relevant considerations related to the temporal and spatial scales of effluent discharge and ecological effects that highlight the need to characterize the patterns of stressor discharge when assessing environmental impacts and designing ecological effects studies. I also discuss the potential role of multiple stressors - with an emphasis on veterinary medicines - in disrupting ecosystem structure and function. Overall, the critical analysis presented in this chapter indicates that further research on the effects of veterinary medicines using relevant exposure scenarios would significantly contribute to our understanding of their impact in relation to other effluent stressors. Chapter 3 is a general methods chapter that describes the stream microcosm system used to assess the effects of erythromycin thiocyanate (ERT) and florfenicol (FFC) on bacterial communities of stream biofilms. This chapter presents the results of preliminary experiments whose results provided relevant information on the overall operation of the microcosms and on the variability of major physical and biological variables. This information guided the experimental designs used to assess the effects of FFC and ERT on the bacterial community structure of stream biofilms. Chapter 4 presents the results of the experiment conducted to assess the effects of FFC on the bacterial community structure of developing biofilms. The objective was to assess changes in bacterial community structure along a gradient of FFC concentrations that could provide insight into the type and magnitude of effects that could be expected from episodic exposure of stream biofilms to FFC in headwater streams. At 10 and 20 days of biofilm development, bacterial community structure differentiated in a pattern consistent with the FFC concentration gradient and there was a positive relationship between bacterial richness and bacterial diversity with FFC concentration. At 15 days of biofilm development there was also a positive relationship between FFC concentration and the surface coverage of bacteria and extracellular polymeric substances. These trends declined as the biofilm developed a more complex architecture, in terms of thickness and in the surface coverage of algae. The results are consistent with an initial stimulatory effect of FFC on biofilm formation that triggered changes in bacterial community structure that were gradually compressed as the development of a complex biofilm architecture increased the relative importance of autogenic ecological processes. The results suggest that the co-occurrence of FFC with bacterial pathogens in effluents and wastewaters may favour their persistence in the environment by enhancing biofilm formation. Chapter 5 presents the results of the experiment conducted to assess the effects of ERT on the bacterial community structure of developing biofilms. Currently, Aquamycin® 100 - a Type A medicated article (i.e., Premix) containing 100 g ERT lb-1 and used to produce a Type C medicated feed - is a candidate drug for approval by the US FDA to control mortality associated with bacterial kidney disease in freshwater salmonids. The objective of this experiment was to assess the effects of ERT on the bacterial community structure of stream biofilms using an exposure period consistent with the 28-day treatment regime suggested for Aquamycin® 100. The results provide no evidence to suggest that a 30-day exposure to ERT concentrations in the range of 10 μg L-1 (i.e., 7.3 ± 3.9 μg L-1) would lead to changes in the bacterial community structure or overall bacterial abundance of stream biofilms, while they suggest that these effects may occur at concentrations in the range of 100 μg L-1 (i.e., 87.2 ± 31.1 μg L-1). Chapter 6 attempts to determine whether environmental concentrations of antibiotics and concentrations representing action limits used in environmental risk assessment may exert a selective pressure on clinically relevant bacteria in the environment. In this chapter I use bacterial inhibition as an assessment endpoint to link antibiotic selective pressures to the prevalence of resistance in bacterial populations. Species sensitivity distributions were derived for three antibiotics by fitting log-logistic models to endpoints calculated from minimum inhibitory concentration (MIC) distributions based on worldwide data collated by the European Committee on Antimicrobial Susceptibility Testing (EUCAST). Bacteria represented in these distributions were placed in a broader context by performing a brief phylogenetic analysis. The potentially affected fraction of bacterial genera at measured environmental concentrations of antibiotics and environmental risk assessment action limits was used as a proxy for antibiotic selective pressure. Measured environmental concentrations and environmental risk assessment action limits were also directly compared to wild-type cut-off values. Results suggest that measured environmental concentrations of antibiotics and concentrations representing environmental risk assessment action limits are high enough to exert a selective pressure on clinically relevant bacteria that may lead to an increase in the prevalence of resistance. Chapter 7 presents the results of an exploratory analysis conducted to assess the abundance of class 1 integrons in stream biofilms exposed to FFC and ERT. There was no pattern in the abundance of intI1 genes consistent with the treatment of FFC and ERT, suggesting either the absence of gene cassettes involved in dealing with selective pressures caused by these antibiotics or that the concentrations tested were below those required to give them a selective advantage. Chapter 8 is a brief general discussion that brings together the findings of the thesis and makes suggestions for future research. Key areas identified for future research include assessing in further detail the stimulatory effect of FFC on biofilm formation in complex bacterial communities, the interactive effects of multiple aquaculture effluent stressors on aquatic bacterial communities and their potential effects on the development of antibiotic resistance, the fate of FFC and ERT in stream ecosystems, and further developing the analysis based on MIC distributions presented in chapter 6 to assess the potential effects of antibiotic pollution on the selection of multi-drug resistance in the environment.

Thesis (MSc)--University of Stellenbosch, 2004.
ENGLISH ABSTRACT: The ability of biofilms to resist antimicrobial treatment, when planktonic microbes cannot, is of not only fundamental scientific interest, but also a concern in industrial and medical fields. The inability to control biofouling of water distribution networks and products, as well as recurrent infections of implanted medical devices, is not only costly, but also potentially lethal. Several mechanisms whereby biofilms are able to evade antibiotic and biocidal agents have been proposed and investigated, but no universally relevant characteristic has been identified. . Initial investigation, involving BacLightTh ! LIVEIDEAD viability probes, epifluorescence microscopy and image analysis into the ability of natural biofilm and planktonic populations, .cultured in situ in a cooling tower, to survive treatment with a commercial biocide was not conclusive. Subsequent laboratory experimentation with a bacterial isolate from the cooling tower water revealed that the ability of attached biofilms to resist antimicrobial treatment exceeded that of planktonic cells shed from the biofilm. The reduced ability of suspended cells to survive antimicrobial treatment was not statistically significant, compared to that of the biofilm (P = 0.05). This is in contrast to the wealth of literature published on the subject of biofilm antimicrobial resistance The dilution rate in the flowcells in which biofilms were cultivated was more than 100 times higher than the maximum specific growth rate of the test organism. Nevertheless, there was typically more than I x 108 cells/ml in the effluent, suggesting that a metabolically active, rapidly dividing layer of cells existed at the biofilm bulk-liquid interface, from where daughter cells continuously detached. Treatment with an antimicrobial agent resulted in a significant reduction in the viability and number of cells detached from the biofilm, suggesting that this metabolically active layer of the biofilm was more sensitive to antimicrobial treatment, possibly due to a higher specific growth rate. Antimicrobial resistance was shown to be affected by the growth rate for planktonic bacterial populations, with an increased ability to survive, correlated with a decrease in specific growth rate. This supports the contention that growth rate plays a role in the susceptibility of the active layer. The bacterial cells in the layers closest to the attachment surface of the biofilm has frequently been shown to be slow growing, due to nutrient and oxygen limitation, while the outer biofilm layer is more susceptible to unfavourable environmental conditions. It is possible that such differentiation, which results in a responsive outer biofilm layer, provides a mechanism for the protection of the cells in the deeper layers, and thus survival over time. The results presented here support several hypotheses put forth in literature to account for the increased resistance of biofilms towards antimicrobial agents. Future work will include an investigation into changes in the patterns of gene expression when a bacteria becomes attached to a surface, upon subsequent release from the biofilm, and the influence this has on the ability to resist antimicrobial treatment.
AFRIKAANSE OPSOMMING: Die vermoë van aangehegte mikrobes, in teenstelling met vrydrywende mikroorganismes, om behandeling met antimikrobiese middels te oorleef, is nie net van belang vanuit 'n fundamenteel wetenskaplike oogpunt nie, maar ook betekenisvol vir die industriële en mediese velde. Die beheer van bio-bevuiling van waterverspreidingsnetwerke en produkte, sowel as herhaalde infeksies van mediese inplantings, is nie net van kostebelang nie, maar ook potensieël lewensgevaarlik. Verskeie meganismes wat biofilms in staat stelom antimikrobiese behandeling te oorleef, IS voorgestel en ondersoek, maar geen alomteenwoordige eienskap is tot dusver geïdentifiseer nie. Aanvanklike ondersoeke na die vermoë van natuurlike biofilms en planktoniese 'gemeenskappe, om biosiedbehandeling in situ in 'n lugversorgingskoeltoring se water te oorleef, was onbeslis. Die eksperimentele metodes het gebruik gemaak van BacLight™ LIVE/DEAD lewensvatbaarheidkleurstof, epifluoressensie-mikroskopie en beeldanalise. Daaropvolgende ondersoeke met 'n bakteriese isolaat vanuit die koeltoring het daarop gedui dat biofilms beter in staat is om antimikrobiese behandeling te oorleef as selle wat vrygelaat word vanuit die biofilm. Die afname in the lewensvatbaarheid van vrydrywende selle, na afloop van biosiedbehandeling, was nie statisties beduidend in vergelyking met die van die biofilm nie (P = 0.05). Die bevinding is in teenstelling met wat algemeen aanvaar word in die literatuur. Die verdunningstempo waaronder die biofilms in die vloeiselle gekweek is, was meer as 100- voudig hoër as die maksimum spesifieke groeitempo van die toetsorganisme. Ten spyte hiervan was daar tipies meer as 1 x 108 selle/ml in die uitvloeisel teenwoordig. Dit dui op 'n metabolies aktiewe, vinnig verdelende laag selle in die boonste laag van die biofilm, naaste aan die vloeistof fase, waarvandaan dogterselle voortdurend vrygestel word. Behandeling met die antimikrobiese agent het 'n beduidende afname in die lewensvatbaarheid en aantal dogterselle tot gevolg gehad, wat lei tot die gevolgtrekking dat die metabolies aktiewe laag van die biofilm meer sensitief is vir antimikrobiese behandeling, moontlik weens 'n hoër spesifieke groeitempo. Daar is verder bewys dat die vermoë om die werking van die antimikrobiese middel teen te staan, afhanklik is van die spesifieke groeitempo van planktoniese populasies. 'n Afname in groeitempo word geassosieer met 'n toename in oorlewing na antimikrobiese behandeling, wat die voorstel dat die groeitempo van die aktiewe laag 'n rol speel in die vatbaarheid daarvan, ondersteun. Dit is bekend dat die metaboliese aktiwiteit van bakteriese selle nader aan die aanhegtingsoppervlak van die biofilm verlaag is, weens 'n afname in diffusie van suurstof en nutriente in daardie deel van die biofilm. Dit is moontlik dat hierdie differensiasie, wat lei tot die vatbaarheid van die buitenste laag van die biofilm vir ongunstige omgewingstoestande, 'n oorlewingsmeganisme daarstel wat die onderliggende selle beskerm. Die resultate wat hier voorgelê word, ondersteun verskeie hipoteses wat die verhoogde weerstandbiedendheid van biofilms teen antimikrobiese middels beskryf. Toekomstige werk sluit ondersoeke in na veranderende patrone van geenuitdrukking wat plaasvind wanneer 'n bakterie in aanraking kom met 'n oppervlak, vasheg en ook weer vrygestel word, asook die invloed hiervan op die vermoë om antimikrobiese behandeling te oorleef.

Horizontal gene transfer enables acquisition and dissemination of novel traits including antibiotic resistance and virulence among bacteria. Frequently such traits are gained through the acquisition of clusters of functionally related genes, often referred to as genomic islands (GIs). Quantifying horizontal flow of GIs and assessing their contributions to the emergence and evolution of novel metabolic traits in bacterial organisms are central to understanding the evolution of bacteria in general and the evolution of pathogenicity and antibiotic resistance in particular, a focus of this dissertation study. Methods for GI detection have also evolved with advances in sequencing and bioinformatics, however, comprehensive assessment of these methods has been lacking. This motivated us to assess the performance of current methods for identifying islands on broad datasets of well-characterized bacterial genomes and synthetic genomes, and leverage this information to develop a novel approach that circumvents the limitations of the current state-of-the-art in GI detection. The main findings from our assessment studies were 1) the methods have complementary strengths, 2) a gene-clustering method utilizing codon usage bias as the discriminant criterion, namely, JS-CB, is most efficient in localizing genomic islands, specifically the well-studied SCCmec resistance island in methicillin resistant Staphylococcus aureus (MRSA) genomes, and 3) in general, the bottom up, gene by gene analysis methods, are inherently limited in their ability to decipher large structures such as GIs as single entities within bacterial genomes. We adapted a top-down approach based on recursive segmentation and agglomerative clustering and developed a GI prediction tool, GEMINI, which combined compositional features with segment context information to localize GIs in the Liverpool epidemic strain of Pseudomonas aeruginosa. Application of GEMINI to the genome of P. aeruginosa LESB58 demonstrated its ability to delineate experimentally verified GIs in the LESB58 genome. GEMINI identified several novel islands including pathogenicity islands and revealed the mosaic structure of several LESB58 harbored GIs. A new GI identification approach, CAFE, with broad applicability was developed. CAFE incorporates biological information encoded in a genome within the statistical framework of segmentation and clustering to more robustly localize GIs in the genome. CAFE identifies genomic islands lacking markers by virtue of their association with genomic islands with markers originating from the same source. This is made possible by performing marker enrichment and phyletic pattern analyses within the integrated framework of recursive segmentation and clustering. CAFE compared favorably with frequently used methods for genomic island detection on synthetic test datasets and on a test-set of known islands from 15 well-characterized bacterial species. These tools can be readily adapted for cataloging GIs in just sequenced, yet uncharacterized genomes.

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As propriedades medicinais de fitoterápicos utilizados tradicionalmente pela população têm sido comprovadas por pesquisas em todo o mundo. Foram avaliadas as atividades antimicrobianas e antioxidantes de oito extratos fitoterápicos produzidos na Pastoral da Saúde de Venda Nova do Imigrante- ES, Brasil, a partir das plantas: Anadenanthera colubrina (Vell.) Brenan, Achillea millefolium L., Aristolochia cymbifera Mart., Casearia sylvestris Sw., Cordia verbenacea DC., Echinodorus grandiflorus (Cham.& Schltdl.) Micheli , Gossypium hirsutum L. e Plantago major L. A atividade antimicrobiana foi avaliada pelo método de microdiluição em caldo determinando a concentração mínima bactericida (CMB) de cada extrato contra 12 espécies bacterianas, incluindo cepas multirresistentes causadoras de infecções hospitalares como MRSA, VRE e K. pneumonie ESBL. Todos os extratos, com exceção do extrato de A. cymbifera cuja CMB > 250 mg/mL, apresentaram atividade antimicrobiana contra as bactérias avaliadas com CMB variando entre 4 e 86 mg/mL para bactérias Gram-positivas e Gram-negativas , com destaque especial para os extratos de A. colubrina e C. verbenacea, para os quais realizou-se o teste de avaliação da cinética de morte bacteriana (time-kill). A atividade antioxidante dos extratos foi avaliada pelo método DPPH, demonstrando que os extratos fitoterápicos apresentam de razoável a ótima ação antioxidante, comparadas ao padrão quercetina. Os resultados obtidos confirmam indicações empíricas atribuídas aos extratos fitoterápicos incluindo a ação antimicrobiana, corroborando para atribuir novos usos aos fitoterápicos avaliados, bem como para incentivar novos estudos com os extratos e as plantas das quais estes são obtidos
The medicinal properties of herbs used traditionally by the population have been proved by researches from all around the world. Antimicrobial and antioxidant activities of eight phytotherapeutic extracts produced in the Pastoral care of health of Venda Nova do Imigrante-ES were assessed, from the plants: Anadenanthera colubrina (Vell.) Brenan, Achillea millefolium L., Aristolochia cymbifera Mart., Casearia sylvestris Sw., Cordia verbenacea DC., Echinodorus grandiflorus (Cham.& Schltdl.) Micheli, Gossypium hirsutum L. and Plantago major L. The antimicrobial activity was evaluated by the microdiluition method for determining the minimal bactericidal concentration (MBC) of each extract against 12 bacterial species, including multi-drug resistant strains causing nosocomial infections like MRSA, VRE and ESBL K.pneumonie. All plant extracts, with the exception of A. cymbifera whose MBC > 250 mg/mL, showed antimicrobial activity against the tested bacteria, with MBC ranging between 4 and 86 mg/mL to Gram-positive bacteria and Gram-negative bacteria, with special highlights for the extracts of A. colubrina and C. verbenacea, for which there was the kinetic evaluation test of bacterial death (time-kill). The antioxidant activity of extracts was evaluated by the DPPH method, demonstrating that the extracts are herbal medicines of regular to great antioxidant action, compared to standard quercetin. The results obtained confirm empirical indications attributed to the phytotherapeutic extracts including antimicrobial action, corroborating to assign new uses for the phytotherapics evaluated, as well as to encourage further studies with the extracts and the plants from which they are derived

[Truncated abstract] Pseudomonas aeruginosa, an important opportunistic pathogen, is resistant to a wide array of functionally and structurally diverse antimicrobial agents including antibiotics, disinfectants and biocides. P. aeruginosa is more resistant than other Gram negative bacteria to tea tree oil (TTO), the essential oil steam distilled from the leaves of Melaleuca alternifolia and comprised of over 100 terpene hydrocarbon components and their oxygenated derivatives. TTO is an established topical antimicrobial agent, with antibacterial, antiviral and antifungal properties. Intrinsic antimicrobial resistance mechanisms in P. aeruginosa include the low permeability of the outer membrane and expression of multi-drug efflux pumps. A series of multi-drug efflux mutants from the resistance-nodulation-cell division family was obtained and their susceptibility to TTO and several components examined. This demonstrated that TTO and the components terpinen-4-ol, 1,8-cineole and a-terpineol were substrates of MexAB-OprM, using both pump deletion mutants and the pump inhibitor Phe-arg ß-naphthylamide dihydrochloride. In complementation studies, the addition of mexAB-oprM to deletion mutants restored susceptibility to these agents to that of the wild-type, confirming the role of MexAB-OprM in tolerance to TTO and these three components. ... An increase in susceptibility to ticarcillin and Timentin occurred in PAO1 following serial subculture in terpinen-4-ol. Susceptibility to ticarcillin has been associated with expression of the MexCD-OprJ system in P. aeruginosa. A library of transposon mutants was created to find additional mechanisms by which P. aeruginosa could tolerate TTO. The library yielded a total of 20 mutants that were more susceptible than parental strains to TTO and/or terpinen-4-ol. The insertion site of the transposon was identified in 14 mutants and, in four mutants, this was a gene related to flagellar biosynthesis. Flagella deficient mutants have previously demonstrated enhanced susceptibility to the membrane-disrupting surfactant sodium dodecyl sulfate and this echoes the increased susceptibility to TTO and terpinen-4-ol observed. Three non-sibling surA mutants were also identified. SurA is involved in the correct folding of outer membrane proteins, including porins, in Gram negative bacteria: surA mutants of Escherichia coli have phenotypes that are characteristic of a defective cell envelope, including an increased susceptibility to hydrophobic agents. The increase in susceptibility to hydrophobic TTO and terpinen-4-ol in the surA mutants is consistent with this and represents the first report linking SurA function to antimicrobial resistance in P. aeruginosa. In conclusion, several Mex efflux systems of P. aeruginosa including MexAB-OprM, MexCD-OprJ and MexEF-OprN, as well as the LPS core, outer membrane integrity and a functioning flagella biosynthetic pathway contribute to the tolerance of this organism to TTO and/or several components.

Thesis (M. Tech. Environmental health) -- Central University of technology, Free State, 2011
Microbial pathogens play an important role in the food industry where they could cause disease and subsequently significant economic losses. Limited information is available on the situation with regard to Listeria in food products in South Africa. However, much research is being done in the rest of the world on Listeria indicating serious problems as a result of resistance development against various antimicrobial agents, including the organic acids. It is hypothesised that the situation with regard to resistance development may be more serious than generally admitted. Isolation of 200 different food samples was done by using a slightly modified EN ISO 11290-1/A1:2004 standard method. Identification of presumptive positive colonies was confirmed as Listeria by API (Analytical profile index) Listeria. API positive cultures were subjected to 16S rDNA sequencing to compare and confirm identification. Isolates and standard strains were screened for resistance to food preservatives such as organic acids and antibiotics used in the current treatment regime for Listeria infections. The organisms evaluated included isolated strains namely Listeria monocytogenes, Listeria welshimeri, Listeria innocua and their corresponding ATCC (American type culture colletion) strains. An agar dilution method as described by the Clinical and Laboratory Standard Institute (CLSI) was used to determine the minimum inhibitory concentrations (MICs) of 11 antibiotics and 13 organic acids and salts for all the isolates. Overall antibiotic susceptibility patterns of all the isolates indicated high level susceptibility to all the antibiotics tested. Susceptibility to all the organic acids was notably reduced at pH 7 in all the isolates and control strains. Eight highly susceptible strains were selected for induction and represented each of the species isolated. These isolates were exposed to increasing concentrations of three antibiotics and three organic acids. MICs were again determined for all the induced strains for five antibiotics and three organic acids. Proteins extracted from the induced strains were separated on discontinuous SDS-PAGE slab gels to generate total protein profiles. Notable variations were observed in MICs, although induction with antibiotics as well as organic acids did not result in general resistance development. However, evidence was provided that continuous exposure to antimicrobial agents may cause Listeria spp. to develop resistance to different antimicrobial agents. Further research and in depth studies on mechanisms involved in the development of resistance to food preservatives would, therefore, be required. Finally, it is concluded that Listeria monocytogenes may be a possible threat in the Central South African food industry, which deserves more attention. The situation may actually pose a problem that is overseen, because only a small percentage of people that get sick from food, would seek medical advice.

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.

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

The rate at which bacterial pathogens are becoming resistant to antibiotics is quite alarming, and therefore much attention has been focussed on this area. The mechanism whereby the bacterial cells acquire resistance is studied in order to determine how this process works as well as to determine if any future resistance mechanisms can be circumvented. In this study three different genera and the antibiotics that are resistant to them were used, namely, penicillin resistant Streptococcus, vancomycin resistant Enterococcus and methicillin resistant Staphylococcus. The results prove that the active sites SXXK, SXN and KT(S) G in the penicillin resistance Streptococcus plays a major role in resistance. It is seen in this study that the SXXK active site is found in all the resistant and most of the intermediate strains, therefore proving to be an important component of the cell wall resistance. It was subsequently noticed the greater the number of mutations found in the sequences the higher the resistance. Three dimensional structures showed the actives sites and their binding pockets. The results also show the change in conformation with a mutation in the active site. The results also proved that the Penicillin Binding Protein (PBP) genes essential for resistance are PBP Ia, PBP 2b and PBP 2x. The results obtained, for the vancomycin resistance in Enterococcus study, proved that the VanC and VanE cluster are very much alike and VanE could have evolved from VanC. There is also close similarity between the different ligase genes. The VanX 3D structure shows the position of the critical amino acids responsible for the breakdown of the D-Ala-D-Ala precursors, and the VanA ligase 3D structure shows the amino acids responsible the ligation of the D-Ala-D-Lac precursors. The analysis performed on the methicillin resistance in Staphylococcus study showed that the genes used to confer resistance are very similar between different strains as well as different species.
Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2005.

The global threat from antibiotic resistant organisms and the effect on human and animal health is now well acknowledged. One measure to control the emergence and dissemination of antibiotic resistant organisms is to monitor bacterial populations and examine the epidemiology of antibiotic resistance genes in naturally occurring bacteria. This study examines antibiotic resistant bacteria of human and animal origin and compares resistance gene transfer in the intestinal tract of animal models to that which occurs in vitro.
The study provides information about tetracycline resistance as it occurs in wild-type bacteria within the environment of the normal flora of an animal. The transfer of tetracycline resistance genes in vitro between E. coli isolates from different origins was found to be occurring at lower levels than that which occurred in vitro. The co-transfer of unselected spectinomycin, streptomycin and sulfadiazine resistance in animal models was also demonstrated.
The study has provided important information regarding the nature and epidemiology of antibiotic resistance in naturally occurring strains of E. coli and enterococci from Australia. This should form part of a larger study, which monitors commensal bacteria and collects data regarding antibiotic resistance in natural populations of bacteria. This evidence can then be used to reduce the levels of antibiotic resistance in the environment and reduce the risk to human and animal health.
Thesis (PhD)--University of South Australia, 2006.

Thesis (M.S.)--Michigan State University. Dept. of Microbiology & Molecular Genetics, 2008.
Title from PDF t.p. (viewed on July 29, 2009) Includes bibliographical references (p. 162-166). Also issued in print.