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The in vitro activity of antimicrobial agents alone and in combination against clinical isolates of gram-positive bacteria.Van den Berg, Alan January 1993 (has links)
A dissertation submitted to the Faculty of
Medicine, University of the Witwatersrand,
Johannesburg, for the degree of Master of Science
in Medicine. / Analysis of organisms involved in hospital infections
has shown that Gram-positive bacteria have assumed an
increasingly important role. Examples that have been
recognised as important pathogens are staphylococci ,
enterococci, streptococci, Corynebacterium jeikeium and
Leuconostoc species. Methicillin resistance in
staphylococci has become a major problem in certain
hospitals. Viridans streptococci continue to be the most
frequent cause of native valve endocarditis. Leuconostoc
species are being increasingly isolated from blood
cuIture specimens. strains of Gram-positive bacteria
have become resistant to specific antibiotics; e.g.
staphylococci to methicillin, enterococci to ampicillin,
and viridans streptococci to penicillin. JK
corynebacteria are sensitive only to vancomycin and
resistant to other antimicrobials normally used for
treating infection caused by Gram-positive bacteria.
In this study various combinations of antimicrobials
against 35 clinical isolates of Gram-positive bacteria
obtained from three hospitals in the Johannesburg area
(Johannesburg, Hillbrow, and Baragwanath) from 1987-
1988 were investigated.
The MIC / MBC results conformed to others described in
worldwide studies.
Results when different methodologies for determining
synergy were used, varied. This emphasizes the need for
standardization, especially with regard to the time-kill
studies.
Most antimicrobial combinations
demonstrated
tested against
Leuconostoc species synergy using the
checkerboard method, but these results were not
confirmed by time-kill procedures, which showed mainly
indifference.
Synergy was also obtained when gentamicin plus
ciprofloxacin was combined
Corynebacterium jeikeium.
Because of increasing resistance and the fact that Gram-
positive bacteria cause serious infections, various and
new combinations of antimicrobials need to be tested
before treating these infections.
Parts of this dissertation have been presented at the
following congresses:
10th Annual Congress of the Society of Medical.
Laboratory Technologists of South Africal Sun city 1989
75th Anniversary Congress of Pathology Johannesburg
1990
11th Annual Congress of the Society of Medical
Laboratory Technologists of South Africa, Durban 1991 / Andrew Chakane 2019
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Detection of #Beta#-lactam resistant Streptococcus pneumoniae by polymerase chain reactionOrganji, Sameer R. A. January 1998 (has links)
No description available.
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In silico analysis of 16S ribosomal RNA gene sequencing based methods for identification of medically important Gram-positive rods胡國良, Wu, Kwok-leung. January 2008 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
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Studies towards the total synthesis of tetrodecamycinHe, Jing January 2007 (has links)
Tetrodecamycin (1) is a novel α-(γ-hydroxyacyl) tetronic acid based polyketide antibiotic isolated from the culture broth of Streptomyces nashvillensis MJ885-mF8 by Takeuchi et al. in 1994. Compound 1 shows potent inhibitory activity against Gram-positive bacteria including Bacillus anthracis and methicillin resistant Staphylococcus aureus (MRSA). It was proposed that an Aldol reaction of trans-decalin core 2 and tetronic acid derivative 3 followed by a face selective epoxidation and a subsequent epoxide-opening reaction would deliver the 6,6,7,5-skeleton of tetrodecamycm (1). To investigate this proposal, the silyl enol ether 5 was prepared from cycloheptene 4 in 7 steps. An unusual domino silyl enol ether reaction sequence was observed when the silyl enol ether 5 was submitted to a Diels-Alder reaction. It afforded cycloadduct 6, which was converted to the key intermediate 2 after another 3 steps (Scheme 1). Concurrently, double functionalisation of simple cyclic silyl enol ethers was investigated. Because of some difficulties in reproducing good overall yields to the cycloadduct 6, a second synthetic route was proposed. It was envisaged that a palladium-catalysed oxidative cyclisation or an organoselenium-mediated cyclisation reaction of compound 8 would construct the 6,6,7,5- skeleton 7, which would be converted to tetrodecamycin (1) via dihydroxylation followed by an introduction of the exo-methylene group. The intramolecular Diels-Alder reaction of trienal 11 afforded trans-decalin 10, which was converted to β-keto ester 9 in 2 steps. A Dieckmann-type cyclisation of 9 afforded compound 8 in good yield. However, so far transformation to compound 7 has not been achieved (Scheme 2).
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Studies on bioflocculants produced by three freshwater Actinomycetes (Streptomyces Sp.Gansen, Cellulomonas Sp,Bola and Brachybacterium Sp, UFH) isolated from Tyume riverOladele, Agunbiade M January 2011 (has links)
Several bacteria were isolated from the bottom sediments of Tyume River and investigated for bioflocculant production potentials. Kaolin clay suspension (4 g/l) was used to measure the flocculating activity and three of the positive isolates were identified by 16S rRNA gene nucleotide sequence analyses and the sequences deposited in GenBank as Streptomyces sp Gansen (accession number HQ537129), Brachybacterium sp UFH (accession number HQ537131.), and Cellulomonas sp Bola (accession number HQ537132). Streptomyces sp Gansen exhibited its maximum flocculating activity using lactose (85% activity), peptone (76.3% activity), Ca2+ as sole sources of carbon, nitrogen and cations respectively, and at a neutral pH of 7.0, while, the bioflocculant produced by Brachybacterium sp UFH with glucose, urea and Ca2+ as carbon, nitrogen and cations sources yielded 82% and 97% flocculation activity respectively at a neutral pH. Also, glucose (73.2% activity), ammonium chloride (78.2% activity) and Ca2+ resulted in optimal production of bioflocculant by Cellulomonas sp Bola, also at a neutral pH. Chemical analysis confirmed that bioflocculant produced by Streptomyces Gansen is a polysaccharide while Brachybacterium sp UFH and Cellulomonas sp Bola produces a glycoprotein compound. This freshwater actinomycetes appears to have a tremendous potential as sou rces of new bioflocculants.
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In silico analysis of 16S ribosomal RNA gene sequencing based methods for identification of medically important Gram-positive cocciLeung, Po-shan, 梁寶珊 January 2007 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
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In silico analysis of 16S ribosomal RNA gene sequencing based methods for identification of medically important Gram-positive cocci /Leung, Po-shan, January 2007 (has links)
Thesis (M. Med. Sc.)--University of Hong Kong, 2007.
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In silico analysis of 16S ribosomal RNA gene sequencing based methods for identification of medically important Gram-positive rodsWu, Kwok-leung. January 2008 (has links)
Thesis (M. Med. Sc.)--University of Hong Kong, 2008. / Includes bibliographical references (p. 23-34)
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Structural and functional elucidation of the Type VIIb secretion system from Staphylococcus aureus / Strukturelle und funktionelle Analyse des Typ VIIb Sekretionssystems aus Staphylococcus aureusMietrach, Nicole Aline January 2020 (has links) (PDF)
The Type VII secretion system (T7SS) is linked to virulence and long-term pathogenesis in a broad range of Gram-positive bacteria, including the human commensal and pathogen Staphylococcus aureus. The Type VIIb secretion system (T7SSb) is responsible for the export of small toxic proteins, which induce antibacterial immune responses and mediate bacterial persistence in the host. In addition, it is also involved in bacterial competition. The T7SSb requires several proteins to build up the secretion machinery. This work focuses on the structural and functional investigation of the motor ATPase EssC and the putative pore forming, multi-pass membrane component EsaA. Both proteins are indispensable for substrate secretion.
EssC belongs to the FtsK/SpoIIIE ATPase family and is conserved among the T7SSs. It contains three C-terminal, cytosolic ATPase domains, designated as EssC- D1, -D2 and -D3, whereby EssC-D3 is the most distal one. In this thesis, I am presenting the crystal structure of the EssC-D3 at 1.7 Å resolution. As the deletion of EssC-D3 abrogates substrate export, I have demonstrated that this domain comprises a hydrophobic, surface-exposed pocket, which is required for substrate secretion. More specifically, I have identified two amino acids involved in the secretion process. In addition, my results indicate that not only EssC-D3 is important for substrate interaction but also EssC-D2 and/or EssC-D1. Unlike in the related Yuk T7SSb of Bacillus subtilis, the ATPase activity of D3 domain contributes to substrate secretion. Mutation of the modified Walker B motif in EssC-D3 diminishes substrate secretion completely.
The membrane protein EsaA encompasses an extracellular segment spanning through the cell wall of S. aureus. I was able to reveal that this part folds into a stable domain, which was crystallized and diffracted up to 4 Å. The first attempts to dissolve the structure failed due to a lack of homologues structures. Therefore, crystals for single-wavelength anomalous dispersion, containing selenomethionyl-substitutes, were produced and the structure solution is still in progress. Preliminary experiments addressing the function of the extracellular domain indicate an important role in substrate secretion and bacterial competition. / Das Typ VII Sekretionssystem (T7SS) ist wichtig für Virulenz und Langzeit- Pathogenität von Gram-positiven Bakterien. Zu diesen gehört auch Staphylococcus aureus, bekannt als Kommensal und Pathogen im Menschen.
Das Typ VIIb Sekretionssystem (T7SSb) exportiert kleine, toxische Proteine, die antibakterielle Immunantworten auslösen und für bakterielle Persistenz verantwortlich sind. Außerdem ist es an dem Konkurrenzkampf zwischen Bakterien beteiligt.
Das System benötigt verschiedene Komponenten, um eine Sekretion zu ermöglichen. Diese Doktorarbeit konzentriert sich auf zwei dieser Proteine, die ATPase EssC und das Membranprotein EsaA. Beide Komponenten sind unentbehrlich für eine vollständige Funktionalität.
EssC gehört zu der Familie der FtsK/SpoIIIE ATPasen und ist evolutionär in allen T7SSs erhalten. EssC besitzt drei C-terminale, zytosolische ATPase Domänen, bezeichnet als EssC-D1, -D2 und D3, wobei EssC-D3 C-terminal gelegen ist.
In dieser Arbeit präsentiere ich die Kristallstruktur der ATPase Domäne EssC-D3, aufgelöst bis zu 1.7 Å. Die Domäne ist unabdingbar für die Sekretion. Durch die Strukturauflösung wurde eine hydrophobe, Oberflächen-exponierte Substrat- Bindetasche bestimmt, die eine essenzielle Rolle für den Export der toxischen Substrate einnimmt. Durch dieses Projekt konnten zwei Aminosäuren in dieser Tasche bestimmt werden, die für den Prozess der Substratsekretion wichtig sind. Weiterhin wurde bewiesen, dass nicht nur EssC-D3, sondern auch die ATPase Domäne EssC-D2 und/oder EssC-D1 mit den Substraten interagieren kann. Im Gegensatz zu dem verwandten T7SSb in Bacillus subtilis, verfügt EssC-D3 über ATPase Aktivität und ermöglicht dadurch den Substratexport.
Das Membranprotein EsaA besitzt einen extrazellulären Abschnitt, der sich durch die Zellwand von S. aureus erstreckt. Dieser extrazelluläre Part besteht aus einer stabilen Domäne, welche kristallisiert werden konnte und bis zu 4 Å diffraktiert. Aufgrund von fehlenden homologen Strukturen konnte die Struktur der Domäne noch nicht bestimmt werden. Für die Phasenbestimmung, die wichtig für die Strukturauflösung ist, wurden Kristalle mit Selenomethionyl-Substituten hergestellt. Die Strukturauflösung ist noch nicht beendet. Erste Experimente bezüglich der extrazellulären Domäne zeigen, dass diese ebenfalls wichtig für die Substratsekretion und zusätzlich am Konkurrenzkampf zwischen Bakterien beteiligt ist.
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Molecular epidemiology of anaerobic gram-positive bacilli bacteremia and discovery of six novel anaerobic gram-positive bacilliWoo, Kei-sheng, Gibson., 吳基昇. January 2003 (has links)
published_or_final_version / abstract / toc / Microbiology / Master / Master of Philosophy
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