Global ETD Search

11	Investigations into teichoic acid dispensability and TagB function in Bacillus subtilis 168 Bhavsar, Amit P. Brown, E. D. January 1900 (has links) Thesis (Ph.D.)--McMaster University, 2006. / Supervisor: E.D. Brown. Includes bibliographical references (leaves 95-104).
12	Characterization of the S-adenosylmethionine-dependent regulation and physiological roles of genes in the S box system McDaniel, Brooke A., January 2005 (has links) Thesis (Ph. D.)--Ohio State University, 2005. / Title from first page of PDF file. Document formatted into pages; contains xvii, 176 p.; also includes graphics (some col.) Includes bibliographical references (p. 158-176). Available online via OhioLINK's ETD Center
13	Sensing of gram positive bacteria in drosophila immunity Wang, Lihui January 2007 (has links) No description available. 595.77
14	Investigation of novel erythromycin resistance mechanisms arising from heterologous expression of gram positive DNA in escherichia coli. Nteo, Maseho Dorothy 15 May 2008 (has links) Antibiotic resistance is increasing rapidly world wide. Resistance determinants have evolved long before antibiotics were used. Though horizontal gene transfer and mutation play a major role in the dissemination of antibiotic resistance genes their evolutionary origins remain obscure. A model system was used to investigate how they might arise in the first case. Plasmid borne erythromycin resistant clones were selected through marker rescue from genomic libraries of DNA from Gram positive organisms, maintained in E. coli. EryR determinants were recovered from nine libraries of 23 screened. Clone pMP1 (DNA from Mycobacterium parafortuitum) was the most resistant, with an MIC of 400 ìg/ml for erythromycin and 12 ìg/ml for azithromycin. Antibiotic resistance was not expressed in Rhodococcus erythropolis. Restriction maps were constructed for clones pMP1 and pMCX (DNA from Mycobacterium avium). Clone pMP1 was sub-cloned and the fragment carrying the EryR determinant (~2.4 kb) was sequenced. Analysis revealed 2 open reading frames (ORF1 and ORF2). ORF1 showed highest similarity to an FixB/FixA proteins and ORF2 showed similarity to a methyl transferase. Key words: antibiotic resistance,erythromycin, Gram positive DNA / Prof. E.R. Dabbs antibiotics drug resistance in microorganims erythromycin gram-positive bacteria escherichia coli
15	Optimizing conditions to electroporate Rothia mucilaginosa Lee, Ji Youn 24 September 2015 (has links) Rothia mucilaginosa (Rm) is a gram-positive bacterium residing in the oral cavity. Recent studies in our laboratory have shown that this microorganism is able to cleave gluten, including immunogenic domains implicated in celiac disease. This can be beneficial to patients with celiac disease because exploitation of Rm can provide a novel mode of treatment. The enzymes responsible for this cleavage are as yet unknown. The purpose of this study was to optimize the transformation efficiencies of Rm cells through electroporation, with the ultimate goal to create knock-out mutants for enzyme activity. We have determined various aspects of Rm cells relevant for this project: (1) the growth curve characteristics of Rm; (2) the presence of endogenous restriction enzyme activities; and (3) the conditions facilitating Rm electroporation by varying electroporation voltages. Furthermore, electroporation and transformation of the plasmid pUC18 was conducted in Escherichia coli. The growth curve of Rm cells in BHI growth medium incubated at 37°C while shaking showed a doubling time of approximately 3 hours in the logarithmic growth phase. Using a cell sonicate of Rm cells incubated with Lambda DNA and four different restriction enzyme buffers, we found that there were no apparent endogenous restriction enzyme activities detectable. For the electroporation experiments, we used previously published protocols for the bacterium Staphylococcus aureus, as a standard condition to electroporate Rm cells. Those studies have shown that changing electrical parameters during the electroporation would yield a high efficiency rate of gram-positive bacterial transformation (Lofblom et. al., 2006; Metzler et. al., 1992). Therefore in our study, we increased the field strengths (kVcm-1) to electroporate Rm cells. Rm cells could not be successfully transformed, and we observed that field strengths exceeding 18 kVcm-1 destroyed Rm cells. On the other hand, the transformation of E. coli with pUC18 was successful. Our studies have laid the groundwork for investigating the transformation of Rm cells, and future studies can use the results obtained to further investigate ways to optimize transformation of Rm cells for potential utility in celiac patients. Molecular biology Celiac disease Gram-positive bacteria Rothia mucilaginosa
16	The identification and characterisation of the arsenic resistance genes of the gram-positive bacterium, Sulfobacillus thermosulfidooxidans VKM B-1269T Van der Merwe, Jacobus Arnoldus 03 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: The arsenic resistance operon (ars operon) of the Gram-positive, iron-oxidizing, acidophilic, moderately thermophilic bacterium, Sulfobacillus thermosulfidooxidans VKM B-1269T (Sb. t. VKM B-1269T), was isolated and characterised. The ars operon was chromosomally located and consisted of an arsR (codes for a transcriptional regulator) and an arsB (codes for a membrane located arsenic/antimony efflux pump). The arsRB genes were transcribed in the same direction. An arsC (codes for an arsenate reductase), usually associated with ars operons, was absent from this ars operon. PCR and Southern-hybridization experiments revealed that no arsC, representative of either the Grx/GSH or Trx ArsC families was present in the genome of Sb. t. VKM B-1269T. An interesting feature of the ars operon was the presence of a gene encoding a 525 amino acid (60.83 kDa) kumamolisin-As precursor located upstream of the arsRB operon. The intergenic region between the termination end of the kumamolisin-As precursor gene and the transcriptional start of the arsR gene was only 77 bp, suggesting that this ars operon might consist of three genes. RT-PCR analysis showed that the ars operon of Sb. t. VKM B-1269T, was not co-transcribed with the kumamolisin-As precursor gene in its native Sulfobacillus host. The ars operon of Sb. t. VKM B-1269T did not complement an Escherichia coli arsenic sensitive mutant. mRNA transcript analysis and promoter expression studies confirmed that processes involved in the production of functional proteins from the ars operon transcript were likely to be responsible for the inability of the arsRB operon of Sb. t. VKM B-1269T to confer resistance to arsenic in the heterologous E. coli host. Eight Sulfobacillus strains isolated from different geographical areas were subjected to amplified ribosomal DNA restriction enzyme analysis (ARDREA) using the restriction endonuclease Eco1015 (SnaBI) and revealed that they could be divided into the proposed Sulfobacillus spp. subgroup I and subgroup II, respectively (Johnson et al., 2005). The presence, distribution and relatedness of the ars genes among members of genus Sulfobacillus was determined. Phylogenetic sequence comparisons revealed two clearly defined arsB clusters within genus Sulfobacillus and showed that the arsB of a specific Sulfobacillus sub specie is distinctive of that specific Sulfobacillus sub specie. Futhermore, sequence analysis of the isolated arsB homologue fragments from the respective Sulfobacillus spp. showed that four distinctive profiles could be identified based on differences in the location of restriction endonuclease recognition sites. / AFRIKAANSE OPSOMMING: Die arseen weerstandbiedendheidsoperon (ars operon) van die Gram-positiewe, ysteroksiderende, asidofiliese, matige termofiliese bakterium, Sulfobacillus thermosulfidooxidans VKM B-1269T (Sb. t. VKM B-1269T), was geïsoleer en gekarakteriseer. Die ars operon was op die chromosoom geleë en het uit ‘n arsR (kodeer vir ‘n transkripsionele reguleerder) en ‘n arsB (kodeer vir ‘n membraan geleë arseen/timien uitskeidings pomp) bestaan. Die arsRB gene word in dieselfde rigting getranskribeer. ‘n arsC (kodeer vir ‘n arsenaat reductase), wat gewoontlik geassosïeer word met ars operons, was afwesig van hierdie ars operon. PKR en Southern-hibridisasie eksperimente het aangedui dat geen arsC, verteenwoordigend van beide die Grx/GSH of Trx ArsC families, nie teenwoordig was in die genoom van Sb. t. VKM B-1269T, nie. ‘n Interressante eienskap van hierdie ars operon was die teenwoordigheid van ‘n geen wat stroom-op van die arsRB operon geleë is en ‘n 525 amino suur (60.83 kDa) kumamolisin-As voorloper kodeer. Die intergeniese gedeelte tussen die terminerings einde van die kumamolisin-As voorloper en die transkriptionele begin van die arsR geen was slegs 77 bp, wat voorgestel het dat die ars operon moontlik uit drie gene bestaan. RT-PKR analiese het bewys dat die ars operon van Sb. t. VKM B-1269T, nie geko-getranskribeer word met die kumamolisin-As voorloper in sy oorspronklike Sulfobacillus gasheer nie. Die ars operon van Sb. t. VKM B-1269T, het nie ‘n Escherichia coli arseen sensitiewe mutant gekomplimenteer nie. mRNA transkrip-analiese en promoter uitdrukkings eksperimente het bevestig dat prosesse wat betrokke is in die produksie van funksionele proteïene vanaf die ars operon transkrip, moontlik vir die onvermoë van die arsRB operon van Sb t. VKM B-1269T verantwoordelik was om weerstandbiedendheid teen arseen in die heteroloë E. coli gasheer te verleen. Agt Sulfobacillus stamme wat geïsoleer is vanuit verskillende geografiese areas, was onderhewig aan geamplifiseerde ribosomale DNA restriksie-ensiem-analiese (ARDREA) deur gebruik te maak van restriksie endonuklease Eco1015 (SnaBI) en het aangedui dat hulle in die voorgestelde Sulfobacillus spp. subgroup I en subgroup II ingedeel kan word (Johnson et al., 2005). Die aanwesigheid, verspreiding en verwantskappe van die ars gene tussen lede van genus Sulfobacillus was bepaal. Filogenetiese DNA volgorde vergelykings het aangedui dat twee duidelik definïeerbare arsB groepe van mekaar onderskei kan word en dat die arsB van ‘n spesifieke Sulfobacillus sub spesie uniek tot daardie spesifieke Sulfobacillus subspesie is. Bykomend, DNA volgorde analiese van die geïsoleerde arsB homoloog fragmente van die Sulfobacillus spp. het gewys dat vier unieke profiele, op grond van verskille in die ligging van restriksie ensiem herkenning setels, geïdentifiseer kan word. Bacterial genetics Gram-positive bacteria -- Genetics Arsenic resistance genes Sulfobacillus thermosulfidooxidans Theses -- Microbiology Dissertations -- Microbiology
17	Mechanics of Gram-positive bacterial cell adhesion Echelman, Daniel Jay January 2018 (has links) Bacteria adhere despite severe mechanical perturbations. In Gram-positive bacteria, this adhesion is dependent upon a set of extracellular proteins, most notably pili, that have a unique abundance of internal disulfide, isopeptide, and thioester bonds. How these cell adhesion proteins manage to withstand such mechanical assaults, and what role these internal covalent bonds play to that end, remain open questions. Herein, we apply single-molecule force spectroscopy to delve into the mechanical behavior of three Gram-positive pilus proteins. We find that structural components of the Actinomyces oris and Corynebacterium diphtheriae pili have isopeptide-delimited extensions at extreme mechanical forces. This behavior enables efficient energy dissipation under high mechanical loads. Meanwhile, the pilus tip adhesin of Streptococcus pyogenes can covalently bind to targets via its internal thioester bond. We find that reactions with this internal thioester bond are reversible, and that both the nucleophilic bond cleavage and its spontaneous reformation are negatively force-dependent, inhibited at forces above ~30 pN and above ~7 pN, respectively. Based on these observations, we propose a model of shear-enhanced covalent adhesion for Gram-positive bacteria. Finally, we move from single-molecule characterization to application as we explore the potential of a peptide competitors to modulate the folding and function of bacterial virulence factors. Biophysics Nanoscience Microbiology Cell adhesion--Molecular aspects Gram-positive bacteria Cells--Mechanical properties
18	Staphylococcal surface display in directed evolution Kronqvist, Nina January 2009 (has links) Engineered affinity proteins have together with naturally derived antibodies becomeindispensable tools in many areas of life-science and with the increasing number ofapplications, the need for high-throughput methods for generation of such different affinityproteins is evident. Today, combinatorial protein engineering is the most successful strategy toisolate novel non-immunoglobulin affinity proteins. In this approach, generally termed directedevolution, high-complexity combinatorial libraries are created from which affinity proteins areisolated using an appropriate selection method, thus circumventing the need for detailedknowledge of the protein structure or the binding mechanism, often necessary in more rationalapproaches. Since the introduction of the phage display technology that pioneered the field ofcombinatorial engineering, several alternative selection systems have been developed for thispurpose.This thesis describes the development of a novel selection system based onstaphylococcal surface display and its implementation in directed evolution approaches. In thefirst study, the transformation efficiency to the gram-positive bacteria Staphylococcus carnosus wassuccessfully improved around 10,000-fold to a level that would allow cell surface display ofcomplex combinatorial protein libraries. In two separate studies, the staphylococcal displaysystem was investigated for the applicability in both de novo selection and affinity maturation ofaffibody molecules. First, using a pre-selection strategy with one round of phage display, ahigh-complexity affibody library was displayed on staphylococcal cells. Using fluorescenceactivatedcell sorting, binders with sub-nanomolar affinity to tumor necrosis factor-alpha(TNF-α) were isolated. Second, a combined approach using phage display for de novo selectionof first-generation affibody binders and staphylococcal display in a subsequent affinitymaturation selection was applied to generate binders with low nanomolar affinity to the humanepidermal growth factor receptor-3 (ErbB3). Moreover, in an additional study, thestaphylococcal surface display system was improved by the introduction of a protease 3Ccleavage sequence in the displayed fusion products in order to facilitate straightforwardproduction of soluble proteins for further downstream characterization.Altogether, the presented studies demonstrate that the staphylococcal selection systemindeed is a powerful tool for selection and characterization of novel affinity proteins and couldbecome an attractive alternative to existing selection techniques. / <p>QC 20100726</p> affibody combinatorial library directed evoluation Bioengineering Bioteknik
19	Staphylococcal surface display for protein engineering and characterization Löfblom, John January 2007 (has links) Even though our understanding of mechanisms such as protein folding and molecular recognition is relatively poor, antibodies and alternative affinity proteins with entirely novel functions are today generated in a routine manner. The reason for this success is an engineering approach generally known as directed evolution. Directed evolution has provided researchers with a tool for circumventing our limited knowledge and hence the possibility to create novel molecules that by no means could have been designed today. The approach is based on construction of high-complexity combinatorial libraries from which protein variants with desired properties can be selected. Engineered proteins are already indispensable tools in nearly all areas of life science and the recent advent of mainly monoclonal antibodies as therapeutic agents has directed even more attention to the field of combinatorial protein engineering. In this thesis, I present the underlying research efforts of six original papers. The overall objective of the studies has been to develop and investigate a new staphylococcal surface display method for protein engineering and protein characterization. The technology is based on display of recombinant proteins on surface of the Gram-positive bacteria Staphylococcus carnosus. In two initial studies, two key issues were addressed in order to improve the protein engineering method in regard to affinity discrimination ability and transformation efficiency. The successful results enabled investigation of the staphylococcal display system for de novo generation of affibody molecules from large combinatorial libraries. In this study, a high-complexity protein library was for the first time displayed on surface of Gram-positive bacteria and by means of fluorescence-activated cell sorting, specific affinity proteins for tumor necrosis factor-alpha were isolated. Moreover, in following papers, the staphylococcal display method was further improved and investigated for affinity determination, soluble protein production and epitope mapping purposes in order to facilitate downstream characterizations of generated affinity proteins. Taken together, in these studies we have demonstrated that the staphylococcal display system is a powerful alternative to existing technologies for protein engineering and protein characterization. / QC 20100809 affibody combinatorial library epitope mapping Gram-positive bacteria protein engineering staphylococcal surface display Molecular biology Molekylärbiologi
20	Characterization of Structure and Function of SECA Domains Huang, Ying-Ju 14 December 2011 (has links) SecA is a central component of the general secretion system that is essential for growth and virulence of bacteria. A series of fluorescein analogs were tested against ATPase activities of Escherichia coli SecA. Rose Bengal (RB) and Erythrosin B are potent inhibitors abolishing the activities of three forms of SecA ATPase with IC50 in µM range. Both inhibit SecA intrinsic ATPase with two mechanisms depending on ATP concentrations, indicating they influence the two non-identical nucleotide binding sites differently. RB shows different inhibitory effects against three forms of SecA ATPase activities, suggesting that the inhibition is related to the conformation of SecA. RB with IC50 at sub-µM level is the most potent inhibitor of SecA ATPases and SecA-dependent protein translocation to date. The fluorescein analogs inhibit intrinsic ATPase of Bacillus subtilis SecA similarly, and also exhibit antibacterial effects in E. coli and B. subtilis. Our findings indicate the value of fluorescein analogs as probes for mechanistic studies of SecA and the potential development of new SecA-targeted antimicrobial agents. A series of SecA derivatives with truncated C-terminus within the first long α-helix of the helix-bundle extending the ATPase catalytic domain of N68 was analyzed. These SecA variants interact with lipids, and those containing the C-terminal portion of the long α-helix starting at residues #639 form the ring-like structure in liposomes, indicating the critical domains for forming the protein-conducting channel. The presence and length of the C-domain influence the response to RB of NBDII mutants and C-terminal truncates of SecA. Thus this region may interact with the inhibitors and is involved in the structure and regulation of SecA ATPase activity. B. subtilis SecA was analyzed for interspecies comparison. Despite sharing high homology, this SecA homolog cannot complement E. coli mutants with SecA defect. Phospholipids do not stimulate ATPase activities of B. subtilis SecA, but induce its conformational changes, leading to the lipid-specific domains and ring-like structures similar to E. coli SecA. These pore-ring structures may represent part of the protein-conducting channels. Therefore, the potential structural roles of SecA in the protein translocation machinery may be universal in both Gram-negative and Gram-positive bacteria. SecA ATPase Inhibitor Fluorescein dyes Protein conduction channel Gram-positive bacteria

Search results