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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.
101

Regulation of EphA4 expression through the APC-mediated ubiquitin-proteasome pathway /

Shen, Ying. January 2007 (has links)
Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2007. / Includes bibliographical references (leaves 81-90). Also available in electronic version.
102

Proteolytic cleavage of FOXM1 by caspases /

Deng, Meihong. January 2006 (has links)
Thesis (M. Med. Sc.)--University of Hong Kong, 2006.
103

Increased stability of class II MHC-peptide complexes in macrophages infected with mycobacterium avium and the examination of a novel role for cathepsin L in the innate immune response to Francisella Novicida infection

Florence, William Clinton, January 2007 (has links)
Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 152-176).
104

Structural analysis of prodomain inhibition of cysteine proteases in plasmodium species

Njuguna, Joyce Njoki January 2012 (has links)
Plasmodium is a genus of parasites causing malaria, a virulent protozoan infection in humans resulting in over a million deaths annually. Treatment of malaria is increasingly limited by parasite resistance to available drugs. Hence, there is a need to identify new drug targets and authenticate antimalarial compounds that act on these targets. A relatively new therapeutic approach targets proteolytic enzymes responsible for parasite‟s invasion, rupture and hemoglobin degradation at the erythrocytic stage of infection. Cysteine proteases (CPs) are essential for these crucial roles in the intraerythrocytic parasite. CPs are a diverse group of enzymes subdivided into clans and further subdivided into families. Our interest is in Clan CA, papain family C1 proteases, whose members play numerous roles in human and parasitic metabolism. These proteases are produced as zymogens having an N-terminal extension known as the prodomain which regulates the protease activity by selectively inhibiting its active site, preventing substrate access. A Clan CA protease Falcipain-2 (FP-2) of Plasmodium falciparum is a validated drug target but little is known of its orthologs in other malarial Plasmodium species. This study uses various structural bioinformatics approaches to characterise the prodomain‟s regulatory effect in FP-2 and its orthologs in Plasmodium species (P. vivax, P. berghei, P. knowlesi, P. ovale, P. chabaudi and P. yoelii). This was in an effort to discover short peptides with essential residues to mimic the prodomain‟s inhibition of these proteases, as potential peptidomimetic therapeutic agents. Residues in the prodomain region that spans over the active site are most likely to interact with the subsite residues inhibiting the protease. Sequence analysis revealed conservation of residues in this region of Plasmodium proteases that differed significantly in human proteases. Further prediction of the 3D structure of these proteases by homology modelling allowed visualisation of these interactions revealing differences between parasite and human proteases which will lead to significant contribution in structure based malarial inhibitor design.
105

SphereZyme (TM) technology for enhanced enzyme immobilisation application in biosensors

Molawa, Letshego Gloria January 2011 (has links)
Self-immobilisation enzyme technologies, such as SphereZyme™, suffer from the lack of applicability to hydrolyse large substrates. Solid support immobilisation is usually a method of choice, to produce a stable biocatalyst for large substrates hydrolysis in the industry. In order to investigate this limitation, a commercial protease called Alcalase® was chosen as a model enzyme due to its natural activity (hydrolysis of large substrates-proteins). Prior to immobilising through the SphereZyme™ technology, Alcalase® was partially purified through dialysis followed by CM Sepharose™ FF cation exchanger. Sample contaminants, such as salts and stabilisers can inhibit protein crosslinking by reacting with glutaraldehyde. Alcalase® was successfully separated into 3 proteases with the major peak correlating to a positive control run on native PAGE, indicating that it was likely subtilisin Carlsberg. A 16% alkaline protease activity for azo-casein hydrolysis was retained when 5% v/v PEI: 25% v/v glutaraldehyde solution was used as a crosslinking agent in Alcalase® SphereZyme™ production. An increase in activity was also observed for monomeric substrates (PNPA) where the highest was 55%. The highest % activities maintained when 0.33 M EDA: 25% v/v glutaraldehyde solution was initially used as crosslinking agent were 4.5% and 1.6% for monomeric and polymeric substrates, respectively. PEI is a hydrophilic branched polymer with an abundance of amine groups compared to EDA. A comparison study of immobilisation efficiencies of SphereZyme™, Eupergit® and Dendrispheres was also performed for large substrate biocatalysis. The two latter technologies are solid-support immobilisation methods. Dendrispheres reached its maximum loading capacity in the first 5 minute of the one hour binding time. Twenty minutes was chosen as a maximum binding time since there was constant protein maintained on the solid support and no enzyme loss was observed during the 1 hour binding time. PEI at pH 11.5, its native pH, gave the highest immobilisation yield and specific activity over the PEI pH range of 11.5 to 7. SphereZyme™ had the highest ratio for azocasein hydrolysis followed by Dendrispheres and Eupergit®. The SphereZyme™ was also shown to be applicable to biosensors for phenol detection. Different modifications of glassy carbon electrode (GCE) were evaluated as a benchmark for the fabrication of SphereZyme™ modified phenol biosensor. GCE modified with laccase SphereZyme™ entrapped in cellulose membrane was the best modification due to the broad catechol range (<0.950 mM), high correlation coefficient (R2, 0.995) and relative high sensitivity factor (0.305 μA.mM-1). This type of biosensor was also shown to be electroactive at pH 7.0 for which its control, free laccase, lacked electroactivity. From the catalytic constants calculated, GCE modified with laccase SphereZyme™ entrapped in cellulose membrane also gave the highest effectiveness factor (Imax/Km app) of 1.84 μA.mM-1. The modified GCE with Alcalase® SphereZyme™ was relatively more sensitive than GCE modified with free Alcalase®.
106

Proteolytic and amylolytic enzymes for bacterial biofilm control

Molobela, Itumeleng Phyllis 23 October 2010 (has links)
Biofilms are characterized by surface attachment, structural heterogeneity; genetic diversity; complex community interactions and an extracellular matrix of polymeric substances (EPS). Biofilms deposit and adhere to all surfaces that are immersed in aqueous environments. EPS serves many functions including: facilitation of the initial attachment of bacterial cells to a surface; formation and maintenance of the micro colony; enables the bacteria to capture nutrients; causes biofouling; cell-cell communication and enhances bacterial resistance antimicrobial agents. EPS also function as a stabilizer of the biofilm structure and as a barrier against hostile environments. Extracelullar polymeric substances are composed of a wide variety of materials including polysaccharides, proteins, nucleic acid, uronic acid, DNA, lipid and even humid substances. EPS can be hydrophilic or hydrophobic depending on the structural components making up such EPS and the environmental conditions were the biofilms are developing. The exopolysachharides (EPS) synthesized by microbial cells vary greatly in their composition and in their chemical and physical properties within the bacterial strains. Due to variety in the structural components of the bacterial EPS, removal of biofilms by compounds that have no effects on the biofilm EPS would be difficult. Enzymes are proven to be effective in degrading biofilm EPS. The manner in which enzymes degrade the biofilm EPS is through binding and hydrolysis of the EPS components (proteins and carbohydrates) molecules and converting them into smaller units that can be transported through the cell membranes and then be metabolized. The objectives of this study were to grow Pseudomonas fluorescens and mixed bacterial species biofilms in nutrient rich and nutrient limited medium conditions; to determine the EPS, protein and carbohydrate concentrations of the biofilm grown in rich and in limited nutrient conditions and to test the efficiency of protease and amylase enzymes for the degradation of the EPS and biofilm removal. In the results, there was a slight difference in the number of viable cells grown in biofilms that were fed than the cells of the unfed biofilms. As a result, the EPS, protein and carbohydrate concentrations were higher in the fed biofilms than the unfed biofilms. There are contradictory reports about the composition of EPS especially with the ratio of carbohydrate to protein. Some of these reports indicate that certain biofilms EPS have bigger proportion of proteins and some found polysaccharides to be the dominant composition of the EPS of the biofilms. Nonetheless, the quantity and the composition of the EPS produced by bacterial biofilms depend on a number of factors such as microbial species, growth phase and the type of limiting substrate. Enzymes were tested individually and in combination for the degradation of biofilm EPS. For efficient removal of biofilm, it is important that the structural components of the biofilm EPS should be known before application of the relevant enzymes. In this study, the test enzymes were effective for the degradation of the biofilm EPS except for the protease Polarzyme which had no activity. The reason for the inefficiency of Polarzyme may be due to its incompatibility with the specific protein structural components of the biofilm EPS tested in this study. The manner in which the enzymes degrade the biofilm EPS is through binding and hydrolysis of the protein and carbohydrate molecules and converting them into smaller units that can be transported through the cell membranes and then be metabolized. In addition, the mode of enzymatic action will depend on the specific EPS components and this in turn will determine its efficacy. The protease enzymes tested individually and in combination were most effective for EPS degradation. The efficiency of the proteases may be due to their broad spectrum activity in degrading a variety of proteins acting partly as the multi structural components of Pseudomonas fluorescens and mixed bacterial species biofilm EPS. On the other hand, amylase enzymes tested individually and in combination was less effective for the EPS degradation. The structures of polysaccharides synthesized by microbial cells vary. Microbial exopolysaccharides are comprised of either homopolysachharides or heteoropolysaccharides. A number of lactic acid bacteria produce heteropolysaccharides and these molecules form from repeating units of monosaccharides including D- glucose, D- galactose, L- fructose, L- rhamnose, D- glucuronic acid, L- guluronic acid and D- mannuronic acid. The type of both linkages between monosaccharides units and the branching of the chain determines the physical properties of the microbial heteropolysaccharides. Due to a wide range of linkages and the complexity of polysaccharides structures, it would therefore be difficult for the amylases to break down the bond linkages and the monomers making up polysaccharides which determine the physical and chemical structure of the EPS. It was therefore not surprising that the amylase enzymes tested for the degradation of Pseudomonas fluorescens and mixed bacterial species biofilms, were less effective than the proteases. Hence, when the amylase enzymes were tested in combination with the protease enzymes, efficiency improved. It was therefore concluded that the protease enzymes were the primary remedial compounds and the amylase enzymes were the secondary remedial compounds. Conclusion If a compound or compounds capable of destroying all the structural components of different EPS that are produced by different biofilms growing under different conditions is found then the “city of microbes” (biofilms) would be destroyed permanently. If only an enzyme or enzymatic mixture capable of shutting down or deactivating the quorum sensing systems of different biofilm EPS could be found, then there would not be any formation of biofilms. In this study, protease enzymes tested individually and in combination were the most effective in the degradation of biofilm EPS than the amylase enzymes resulting in the reduction of large population of the biofilm cells attached on the substratum. Recommendation Amylase enzymes tested individually and in combination were less efficient for the degradation of the biofilm EPS and biofilm removal. This may be due to the complex structure of the exopolysaccharides synthesized by different biofilms. Also, the bond linkages between monosaccharides units and the branching of the chain complex the structures and as a result confer in the physical properties of the microbial biofilms. Hence, when the amylase enzymes were tested in combination with the protease enzymes, activity improved. For efficient degradation of biofilm EPS, it is therefore recommended that, protease and amylase enzymes should be tested in combination. In addition, the structure of the biofilm EPS should be investigated so that relevant enzymatic mixtures are tested for biofilm removal. / Thesis (PhD)--University of Pretoria, 2010. / Microbiology and Plant Pathology / unrestricted
107

Proteolytic degradation products as indicators of quality in meat and fish

Al-Omirah, Husam F. January 1996 (has links)
No description available.
108

The mycosins, a family of secreted subtilisin-like serine proteases associated with the immunologically-important ESAT-6 gene clusters of Mycobacterium tuberculosis

Gey van Pittius, Nicolaas Claudius 12 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2002. / ENGLISH ABSTRACT: Pathogenic organisms frequently utilize proteases to perform specific functions related to virulence. There is little information regarding the role of proteolysis in Mycobacterium tuberculosis and no studies on the potential involvement of these enzymes in the pathogenesis of tuberculosis. The present study initially focused on the characterization of a family of membrane anchored, cell wall associated, subtilisin-like serine proteases (mycosins-1 to 5) of Mycobacterium tuberculosis. These proteases were shown to be constitutively expressed in M. tuberculosis, to be located in the cell wall of the organism and to be potentially shed (either actively or passively) from the wall. Relatively high levels of gamma interferon secretion by T-cells in response to these proteases were observed in Mantoux positive individuals. The absence of any detectable protease activity lead to a protein sequence analysis which indicated that the mycosins are probable mycobacterial-specific proprotein processing proteases. To identify possible substrates for these proteases, the genome sequence regions surrounding the mycosin genes were analyzed. This revealed that the mycosin genes are in fact part of a cluster of 6 to 12 genes which have been duplicated multiple times in the genome of M. tuberculosis. Due to the presence of members of the previously described ESAT-6 T-cell antigen family within this duplicated region, the five gene cluster regions were named the ESAT-6 loci. In silico analysis of finished and unfinished genome sequencing data revealed the presence of orthologues of the Mycobacterium tuberculosis H37Rv ESAT-6 loci in the genomes of other mycobacteria, e.g. M. tuberculosis CDC1551, M. tuberculosis 210, M. bovis, M. leprae, M. avium, and the avirulent strain M. smegmatis. Phylogenetic analyses done on the resulting sequences have established the duplication order of the gene clusters and demonstrated that gene cluster region 4 (Rv3444c-3450c) is ancestral. Region 4 is also the only region for which an orthologue could be found in the genomes of Corynebacterium diptheriae and Streptomyces coelicoior. Thus, the comparative genomic analyses revealed that the presence of the ESAT-6 gene cluster seems to be a unique characteristic shared by members of the high G+C gram-positive bacteria and that multiple duplications of this cluster have occurred and have been maintained only within the genomes of members of the genus Mycobacterium. The ESAT-6 gene cluster regions were shown to consist of the members of the ESAT-6 gene family (encoding secreted T-cell antigens that lack detectable secretion signals), the mycosins (secreted, cell wall-associated subtilisin-like serine proteases) as well as genes encoding putative ABC transporters, ATP-binding proteins, and other membrane-associated proteins. Thus, from the observation that members of the ESAT-6 family are secreted without the normal sec-dependent secretion signals, it was hypothesized that the membrane-associated and energy-providing proteins function together to form a transport system for the secretion of the members of the ESAT-6 protein family. Supporting this hypothesis, one of the ESAT-6 gene clusters was shown to be expressed as a single polycistronic RNA, forming an operon structure. The promoter for this operon, P e s r e g 3. was also identified and its activity characterized. Subsequent secretion analyses results have shown that secretion of members of the ESAT-6 protein family is dependent on the presence of the proteins encoded by the ESAT-6 gene cluster regions, confirming the putative transport-associated functions of the ESAT-6 gene cluster-encoded proteins. The mycobacterial ESAT-6 gene clusters contain a number of features of quorum sensing and lantibiotic operons, and an extensive review of the literature have led to the hypothesis that the members of the ESAT-6 family may be secreted as signaling molecules and may be involved in the regulation of expression of genes during intracellular residence of the bacterium. In the final part of this study, the evolutionary history of the PE and PPE gene families (members of which is found situated in the ESAT-6 gene clusters) were investigated. This investigation revealed that the expansion of these families are linked to the duplications of the ESAT-6 gene clusters, which is supported by the absence of the multiple copies of the PE and PPE families in the genome of the fast-growing mycobacterium M. smegmatis. Furthermore, dot blot analyses showed that the PPE gene present in ESAT-6 gene cluster region 5 is able to distinguish between mycobacteria belonging to the slow-growing or fast-growing species, indicating a function for the genes of these two families and/or the ESAT-6 gene clusters in the phenotypical differences distinguishing these two groups of mycobacteria. In conclusion, this study has highlighted numerous important aspects of mycobacterial genomics and has greatly contributed to the current body of knowledge concerning the role of proteases, gene duplication and mechanisms of antigen expression and secretion in M. tuberculosis. / AFRIKAANSE OPSOMMING: Sien asb volteks vir opsomming
109

Termolisina como catalisador na síntese de DI- e tripeptídeos contendo asparagina / Thermolysin as a catalyst in the synthesis of di-and tripeptides containing asparagine

Machini, Maria Teresa 26 March 1985 (has links)
Com o objetivo de estudar a potencialidade do emprego de termolisina como catalisador nas reações de incorporação de N-acil-asparagina a ésteres de aminoácidos e peptídeos, foram sintetizados os seguintes di- e tripeptídeos: Boc-Asn-Ile-OBzl, Z-Asn-Ile-OBzl, Moz-Asn-Ile-OBzl, Boc-Asn-Leu- OBzl, Z-Asn-Leu-OBzl, Moz-Asn-Leu-OBzl, Z-Asn-Leu-OEt, Boc-Asn-Phe-OBzl, Z-Asn-Phe-OBzl, Moz-Asn-Phe-OBzl, Z-Asn-Phe- OEt, Z-Asn-Val-OBzl, Moz-Asp-Val-OBzl, Moz-Asn-Ile-Gly-OBzl, Moz-Asn-Ile-Ala-OBzl, Moz-Asn-Ile-Leu-OBzl e Moz-Asn- Ile-Phe-OBzl. Todos os peptídeos foram obtidos na forma pura, com bom rendimento e foram analisados e caracterizados por cromatografia em camada delgada, ponto de fusão, análise elementar, análise de aminoácidos e ressonância magnética protônica. Entre os grupos protetores de asparagina, benziloxicarbonil e p-metoxibenziloxicarbonil permitiram a obtenção dos dipeptídeos com excelentes rendimentos. Foi observado que os tripeptídeos requerem para a sua síntese menores concentração de enzima e tempo de reação em relação aos dipeptídeos. Não foi possível estabelecer a especificidade secundária da termolisina para o resíduo P\'2 pois os rendimentos dos tripeptídeos sintetizados não apresentaram diferença significativa. Foi também realizado um estudo metodológico para determinar as condições ótimas de síntese de Boc-Asn-Ile-OBzl, que consistiu em analisar a influência do pH, concentração de enzima, concentraçao e volume da solução de acetato de sódio, proporção entre os componentes carboxílico e amínico, temperatura e adição de solvente orgânico ao meio de reação. / With de objective of studying the potential for the use of thermolysin as a catalyst in reactions of incorporation of N-acyl-asparagine into esters of aminoacids and peptides, the following di- and tripeptides were synthesized: Boc-Asn-Ile-OBzl, Z-Asn-Ile-OBzl, Moz-Asn-Ile-OBzl, Boc-Asn-Leu-OBzl, Z-Asn-Leu-OBzI, Moz-Asn-Leu-OBzl, Z-Asn-Leu-OEt, Boc-Asn-Phe-OBzl,Z-Asn-Phe-OBzl, Moz-Asn-Phe-OBzl, Z-Z-Asn-Phe-OEt, Z-Asn-Val-OEt, Moz-Asn-Val-OBzl, Moz-Asn-Ile-Gly-OBzl, Moz-Asn-Ile-Ala-OBzl, Moz-Asn-Ile-Leu-OBzl e Moz-Asn-Ile-Phe-OBzl. All of these peptides were obtained in pure form in good yield and analyzed and characterized by thin layer chromatography, melting point, elemental analysis, aminoacid analysis and proton magnetic resonance. Among the protecting groups of asparagine, benzyloxycarbonyl and p-methoxybenzyloxycarbonyl gave excellent yields of the dipeptides. Relative to the dipeptides, the synthesis of the tripeptides was found to require lower enzyme concentrations and temperatures. Since the yields of the tripeptides failed to exhibit significant differences, it was not possible to establish the existence of a secondary specificity of thermolysin for the residue P\' 2 . A methodological study was also performed to determine the optimum conditions for synthesis of Boc-Asn-Ile-OBzl. This study consisted of an analysis of the influence of pH, enzyme concentration, concentration and volume of the solution of sodium acetate, relative proportions of the carboxyl and amino components, temperature, and addition of organic solvent to the reaction medium.
110

Cleavage of brain glutamic acid decarboxylase 65 by calpain under pathological conditions

Unknown Date (has links)
Brain glutamic acid decarboxylase 65 (GAD65) catalyzes the rate-limiting step in the biosynthesis of the major inhibitory neurotransmitter-amino butyric acid (GABA) from the substrate L-glutamic acid. Severe lapse in GABA neurotransmission is one of the etiologies documented in the manifestation of certain neurodegenerative diseases such as epilepsy, Parkinson's disease, Huntington's disease etc. Because GAD65 synthesizes GABA, any modulation of GAD65, therefore, has direct implications on the quanta of GABA released at the synapse. Hence, the major objective of this study was to focus on the regulation of GAD65, with special emphasis on investigating the proteolytic cleavage of fGAD65. Previously, we have shown in vitro that GAD65 was cleaved to form its truncated form (tGAD65), which was more active than the full length form (fGAD65). The enzyme responsible for cleavage was later identified as calpain. Calpain is known to cleave its substrates either under a transient physiologica l stimulus or upon a sustained pathological insult. However, the precise role of calpain cleavage of fGAD65 is poorly understood. In this study, we examined the cleavage of fGAD65 under a range of conditions encompassing both physiological and pathological aspects, including rats under ischemia/reperfusion insult, rat brain synaptosomes or primary neuronal cultures subjected to excitotoxic stimulation with KCl. It was observed that the formation of tGAD65 progressively increased with increasing stimulus concentration. More importantly, cleavage of synaptic vesicle (SV) - associated fGAD65 by calpain was demonstrated, and the resulting tGAD65 harboring the active site of the enzyme was detached from the SVs. Vesicular uptake of the newly synthesized GABA into the SVs was found to be reduced in calpain treated SVs. Furthermore, we also observed that the levels of tGAD65 in the focal cerebral ischemic rat brain tissue increased corresponding to the elevation of local glutamate indica / d by in vivo micro dialysis. Based on these observations, we conclude that calpain cleavage of fGAD65 occurs under pathological conditions. / by Chandana Buddhala. / Thesis (Ph.D.)--Florida Atlantic University, 2012. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2012. Mode of access: World Wide Web.

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