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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Epidemiological and emm gene analysis of non-m-typeable group A streptococcus isolates from Hong Kong

余慧儀, Yu, Wai-yee, Annie. January 2001 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
2

The rpsL gene and streptomycin resistance in Streptococcus gordonii and Streptococcus pyogenes

Vidyasanker, Radhika 13 December 1999 (has links)
Streptomycin resistance in both gram-positive and gram-negative bacteria is usually caused by a single mutation in the rpsL gene. The rpsL gene encodes the S12 protein of the ribosomal complex. The rpsL genes of various bacteria have consensus regions in their sequences. Primers were designed from these consensus pockets and a fragment of the rpsL gene was sequenced from S. gordonii using PCR based methodologies. Using the Multiplex Restriction Sequence PCR(mRS PCR), which used the known primer at one end and a restriction site primer on the other, a gene walk was conducted. In streptomycin resistant strains of S. gordonii, namely GP204, SP204 and SP635, the AAA coding for Lys56 was mutated to ACA, coding for Thr56. The lysine to threonine transition, causing resistance to streptomycin was identical to that expected from the literature. The streptomycin resistance gene of S. pyogenes was mapped using similar techniques. Streptomycin resistant strains S43 ATCC, 543/192/4 and S43/192/30R were studied. In streptomycin resistant S43 ATCC and S43/192/30R strains, the lysine 56 changed to isoleucine and threonine respectively. Surprisingly, the 192/4 had two mutations, in each of the two hotspots in the rpsL gene where mutations due to streptomycin resistance occur. It had the amino acid 56, lysine, mutated to arginine and lysine 101 changed to asparagine. To check if this mutation was stable in the host animal, S43/192/4 P8 (S43/192/4 passaged eight times in mice) was sequenced and the sequence was identical to the streptomycin resistant 192/4. Hence, the lys101 mutation was stable and unlike the ancillary mutations in E.coli and S. typhimurium, which are compensated by new mutations. The pathogenesis of S. pyogenes depends in part on the ability of the pathogen to adhere to the epithelial cells of the throat and the quantity of M protein. Pathogenesis studies done on mice revealed the avirulence of S43/192/4smR strain. To elucidate the reason for this avirulence, the adherence properties and the production of M protein of the two strains S43/192/4smR and S43/192/30R were tested. Qualitative immunoblot analysis of the M protein of 192/4 and 30R revealed no significant difference. Competition ELISA was conducted to quantitate the M protein, and this also did not show any significant difference in the M protein levels. The adherence of 30R and 192/4 was measured on human pharyngeal epithelial cell line. The adherence properties of S43/192/4 SmR, was no different from other strains in this experiment. Electron microscopy, using immunogold to highlight the M protein on the cell surface showed no differences. / Graduation date: 2000
3

Oral cavity as natural reservoir for streptococcus sinensis

曾雅影, Tsang, Nga-ying. January 2007 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
4

Characterization of streptococcal infections in KwaZulu-Natal Durban by random amplified polymorphic DNA anaylsis and DNA macrorestriction analysis.

Madlala, Paradise Z. 28 November 2013 (has links)
A collection of 29 clinical streptococcal isolates obtained from the University of KwaZulu-Natal, Medical School, Durban Metro area (South Africa) were studied to establish their penicillin G susceptibility patterns often refered to as minimal inhibitory concentration (MIC) and to determine the genetic diversity among them using two genotyping methods, randomly amplified polymorphic DNA (RAPD) analysis and pulsed-field gel electrophoresis (PFGE) analysis. All isolates with MIC less than or equal to 0.12 µg/ml were considered susceptible, intermediate resistant if MIC was between 0.25 µg/ml and 4 µg/ml and resistant if greater than 4 µg/ml, The percentage of isolates with resistance was relatively high (75.9%), only 10.3% of isolates showed intermediate resistance and 13.8% of the isolates were completely susceptible to penicillin G. Some of the resistant isolates were highly resistant reaching penicillin G MIC levels of 5000 µ/ml. They were speculated to contain Path altered penicillin binding proteins and high level of crosslinking cell wall induced by the gene products of the MurMN operon. RAPD analysis was performed using three primers, MBPZ-1, MBPZ-2, and MBPZ-3, respectively. RAPD analysis allowed for the identification of 27 RAPD types with MBPZ-1 and MBPZ-3 and 26 RAPD types with MBPZ-2. Ninety-eight percent of these isolates were clustered into two groups, group I and group II, with 90% to 100% dissimilarity among them. Fifty two percent of the isolates of MBPZ-1 group I were in MBPZ-2 group I, 72% isolates of MBPZ-1 group I were in MBPZ-3 group I, and 72% of the isolates of MBPZ-2 group I were in MBPZ-3 group 1. This shows the discriminatory ability of the primers used in this study. Despite clustering of isolates, relatively high diversity was seen. PFGE analysis of macrorestriction fragments obtained after digestion of chromosomal DNA by restriction enzyme, SmaI showed 24 PFGE patterns. The 24 PFGE patterns were divided into three groups (I, II and III) of isolates, with an average of 85% dissimilarity (15% homology) among them. At 25% homology, four clusters, A (13 isolates), B (9 isolates), C (4 isolates), and D (4 isolates) were observed. Two pairs of isolates in group I, cluster A, showed 100% homology. This suggested that each represent the same strain. Four isolates of group I, cluster B, also exhibited 100% homology. This study showed that most of streptococcal isolates with the same penicillin G susceptibility patterns grouped together in a phylogenetic tree by both RAPD and PFGE analysis. There was also some similarity between the results obtained by RAPD analysis and PFGE analysis. Seventeen and nine of the 29 isolates grouped into group I and group II, respectively, two pairs of isolates were indistinguishable, and two pairs of islates were closely related by both RAPD (using MBPZ-3) and PFGE analysis. Although, RAPD analysis is sensitive, specific, faster and cost effective, the ease with which PFGE analysis can be performed, high discriminatory power, reproducibility of the results, and the polymorphism seen in the patterns, suggests that PFGE method has the potential to be very useful for epidemiological evaluations of nosocomial streptococcal infections in KwaZulu-Natal. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2004.
5

The elucidation of the possible mechanism of vancomycin-resistance in selected streptococcal and enterococcal species.

Desai, Rizwana. January 2005 (has links)
Three Streptococcal strains: S. milleri P213, S. milleri P35 and S. milleri B200 and three enterococcal strains: E. faecalis 123, E. faecalis 126 and E. faecium were used to test for vancomycin resistance. Two strains were used as reference strains that were already characterized as vancomycin resistant. E. faecium BM4147 was used as a VanA control and E. faecalis ATCC was used as a VanB control. Susceptibility of each strain to this antibiotic was tested by disk-diffusion assay and the MIC values for the strains were found to be between 5 - 10 ug/ml and for the VanA control, the MIC was > 64 ug/ml and for the VanB control was 32 ug/ml. These MIC values indicate that S. milleri P213, S. milleri P35, S. milleri B200, E. faecalis 123, E. faecalis 126, and E. faecium are all of the VanC phenotype. All strains were tested for lysis by means of addition of vancomycin (10 ug/ml) to the bacterial cultures. Lytic curves were constructed and the VanB control was found to be most autolytic upon addition of vancomycin and E. faecalis 123 was the least autolytic. However, under normal conditions in phosphate buffer, lytic curves showed that S. milleri P213 was the most autolytic and the VanA control, the least autolytic. PCR assays were performed to detect specific antibiotic resistant genes. Primers were selected from Dukta-Malen et al., 1995. The VanA primer yielded amplification of 732 bp for only the VanA control DNA and the VanB primer set yielded products for the VanB control DNA. S. milleri P213, P35, B200 and E. faecalis 123 and 126, and E. faecium DNA were amplified with the VanC primers. This supports the results obtained in MIC that these strains are possibly VanC resistant strains. Amplified VanA control and that of E. faecalis 126 were thereafter sequenced. VanA control amplicon was correctly amplified since it showed homology to E. faecium BM4147 as well as the VanB amplicons which was found to be homologous to the transposon Tn1549 found on the well-characterized E. faecalis strain which is known to harbour the VanB vancomycin-resistant genes. Whilst E. faecalis 126 which represented the VanC phenotype showed 96% homology to E. gallinarum BM4147 which is a well-characterized glycopeptide-resistant enterococci belonging to the VanC phenotype. Southern blots were performed using specific primers as a probe to verify whether the gene sequences for the specific genotype were present in these strains and results confirmed those found in the PCR assays and in DNA sequencing. The peptidoglycan precursors of each strain were arrested in vancomycin (20 ug/ml) to block transpeptidation and transglycosylation steps of peptidoglycan synthesis and bacitracin (100 ug/ml) was used to amplify precursors at the transglycosylation step. Precursors were extracted and analysed by reverse-phase HPLC. UDP-MurNAc-tetrapeptides cell wall precursors, which are found abundantly in vancomycin-resistant strains, were found in large proportions in all strains, except in E. faecalis 123 when arrested with vancomycin. This precursor has a noticeably decreased affinity for vancomycin, hence contributing to its resistance. The precursor accumulated when arrested with bacitracin, was, UDPMurNAc-tetrapeptide in all strains except in E. faecalis 126. UDP-MurNAc-pentapeptides were also found in moderate amounts in most strains. The molecular masses of the peptidoglycan precursors obtained from mass spectrometry correctly identified them. This confirmed that the bacterial strains investigated were in fact resistant to the antibiotic vancomycin and this study shows that results obtained from conventional phenotypical screening methods reliably correlated with the genotypes classified using more advanced techniques such as PCR, southern blot/hybridisation and DNA sequencing. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2005.
6

Characterization of the autolytic systems in selected streptococcal species.

Naidoo, Kershney. January 2005 (has links)
Autolysins are endogenous enzymes responsible for the cleavage of specific bonds in the bacterial sacculus resulting in damage to the integrity and protective properties of the cell wall. The true biological functions of these enzymes are largely unknown. However, they have been implicated in various important biological synthesis processes making their characterization important. Antibiotic susceptibility testing showed these streptococcal strains to have broad spectrum inhibitory concentrations. The major autolysins of selected streptococcal strains were detected and partially characterized by renaturing sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis with substrate-containing gels (zymograms). The autolysins were isolated from the specific culture supematants using 4% SDS precipitation and were shown to have apparent molecular masses ranging from 60kDa to 20kDa. Four major autolysins named A, B, C, and D from the Streptococcus milleri 77 strain were characterized. Lytic enzymes were blotted onto polyvinylidene difluoride (PVDF) membrane and N-terminally sequenced. Sequences showed between 100% and 80% similarity to that of a muramidase, glucosaminidase and a peptidase from S. mutans, S. pyogenes and S. pneumonia respectively. Biochemical characterization confirmed autolysin A to exhibit muramidase activity with both autolysin Band C exhibiting endopeptidase activity. Autolysin D showed an 80% N-terminal sequence similarity to Millericin B, a peptidoglycan hydrolase that is known to exhibit peptidase activity. Autolysis was determined using different buffers at two optimal pHs. Assaying for autolytic activity at different growth stages showed autolysis to be moderate during the lag and early exponential phases of the growth cycle. The activities of autolysins were the highest in the late exponential phase and the stationary phase of growth. Zymogram analysis showed that the Streptococcal milleri strains had moderate autolytic expression during the early and late exponential phases of the growth cycle. Control regulatory mechanisms of autolysins were determined in the presence or absence of specific charged groups, such as teichoic acids. In each case the absence of these charged groups inhibited the rate of autolysis, suggesting that the absence of teichoic acids could play a role in the regulation of the autolysins. Two-dimensional-SDS and zymographic-electrophoresis was used to determine total protein profiles for each strain. This is the first report using twodimensional zymography. Specific proteins which were either up- or down-regulated were identified. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2005.

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