Global ETD Search

1	Identifying ligands of the C-terminal domain of cardiac expressed connexin 40 and assessing its involvement in cardiac conduction disease Keyser, Rowena J. 12 1900 (has links) Thesis (MScMedSc (Biomedical Sciences. Molecular Biology and Human Genetics. Medical Biochemistry))--University of Stellenbosch, 2007. / Connexins (Cx) are major proteins of gap junctions, dynamic pores mediating the relay of ions and metabolites between cells. Cxs 40, 43 and 45 are the predominant cardiac isoforms and their distinct distribution raises questions about their functional differences. Their cytoplasmic (C)-terminal domains are involved in protein-protein interactions. Furthermore, mutations in the myotonic dystrophy protein kinase (DMPK)-causative gene are associated with disruptions in cardiac conduction similar to that described for Cx knock-out mice. DMPK is a Cx43 ligand, raising the possibility that defects in Cx40 ligands may be involved in the development of cardiac conduction disturbances. We hypothesised that delineation of the protein ligands of the C-termini of Cx40 and of Cx45 (parallel study conducted by N Nxumalo) would help elucidate their functional roles. Yeast-two-hybrid methodology was used to identify putative Cx40 ligands. Primers were designed to amplify the C-terminus-encoding domain of the human Cx40 gene (Cx40), the DNA product was cloned into the pGBKT7 vector which was used to screen a cardiac cDNA library in Saccharomyces cerevisiae. Successive selection stages reduced the number of putative Cx40 ligand-containing colonies (preys) from 324 to 33. The DNA sequences of the 33 ligands were subjected to BLAST-searches and internet database literature searches to assign identity and function and to exclude false positive ligands based on subcellular location and function. Eleven plausible ligands were identified: cysteine-rich protein 2 (CRP2), beta-actin (ACTB), creatine kinase, muscle type (CKM), myosin, heavy polypeptide 7 (MYH7), mucolipin1 (MCOLN1), voltage-dependent anion channel 2 (VDAC2), aldehyde dehydrogenase 2 (ALDH2), DEAH box polypeptide 30 (DHX30), NADH dehydrogenase, 6, (NDUFA6), prosaposin (PSAP) and filamin A (FLNA). Cxs 40 and 45 showed differences in the classes of proteins with which they interacted; the majority of putative Cx40 interactors were cytoplasmic proteins, while Cx45 interactors were mitochondrial proteins. These results suggest that Cxs 40 and 45 are not only functionally different, but may also have different cellular distributions. Further analyses of these protein interactions will shed light on the independent roles of Cxs 40 and 45. Dissertations -- Medicine Theses -- Medicine Dissertations -- Medical biochemistry Theses -- Medical biochemistry Heart -- Diseases Ligands (Biochemistry) Proteins -- Analysis
2	The characterisation of N-Acetyltransferase (NAT) in Mycobacterium tuberculosis Sholto-Douglas-Vernon, Carolyn 03 1900 (has links) Thesis (PhD (Molecular Biology and Human Genetics))--University of Stellenbosch, 2005. / 157 leaves single sided printed, preliminary pages i-xvii and numbered pages 1-141. Includes bibliography, and abbreviations and a list of figures. / ENGLISH ABSTRACT: A gene coding for Arylaminie N-acetyltransferase (NAT) has been found in Mycobacterium tuberculosis, the casual agent of tuberculosis (TB). N-acetyltransferase acetylates and inactivates isoniazid (INH), which is a front line drug used in TB therapy. A guanine to adenine SNP at basepair 619 (G619A) has previously been identified in this gene, which results in a glycine to arginine change at amino acid 207 (G207R) (Upton et al. 2001). In this study the nat gene was further characterised. The frequency of the G619A SNP was analysed in 37 M tuberculosis strain families found in the Western Cape Province of South Africa, and it was found that the G619A SNP is conserved in two strain families (strain family 3 and strain family 28). Further sequence analysis identified a new thymine to cytosine SNP at base-pair 529 (T529C) resulting in a tyrosine to histidine change at amino acid 177 (Yl77H). This SNP was found only in isolates from strain family 3. These results imply that these SNPs may be used in epidemiology studies to classify isolates into these strain families. Using Real Time PCR, the expression of nat in M bovis BCG and M tuberculosis (reference strain H37Rv) was determined over a 7 and 28 day growth cycle, respectively. Using 16S rRNA as an endogenous control, the nat gene was shown to be expressed early during the growth curve and reach its maximum expression level at approximately mid-log phase. The expression of nat was induced in drug susceptible M tuberculosis isolates (reference strain H37Rv and isolate 1430 containing both SNPs) exposed to INH at a concentration of O.Oll-lg/ml, but minimal change in expression was observed in resistant isolates (isolate 816) exposed to INH at the same concentration. Mycobacterium bovis BCG cultures exposed to INH, at a final concentration of 0.28I-lg/ml, showed an increase in protein production. The increase of nat mRNA and NAT protein in M tuberculosis and M bovis BCG, respectively, implies that INH affects the expression of NAT. The NAT protein was localised to all fractions of the cell in Mycobacterium smegmatis, M bovis BCG and M tuberculosis, using the Western blot technique. However, protein fractions from the cell envelope region showed a protein (detected with specific NAT antibodies) that ran at a higher molecular weight (MW). This implies that the cytosolic hydrophilic NAT undergoes some type of post-translational process that may make it hydrophobic, and enable it to pass into the cell envelope region. These results show for the first time how nat is expressed during the entire growth cycle of M tuberculosis and M. bovis BeG. It was shown that nat is expressed early during the growth cycle of the bacterium reaching maximum expression levels at mid-log phase. These results are in concordance with those obtained using M. smegmatis nat mutants, which taken together, show that early expression of nat is important for early growth and development of mycobacteria. The results in this study also showed that NAT appeared to be translocated into the cell envelope of the bacterium, implying that NAT may be involved in one of the pathways needed for complete formation of the cell envelope. These results suggest that NAT may be an important target for drug development, as inhibitors of NAT could result in hindered growth and hence spread of the bacterium within its host. Inhibitors may also result in the incomplete development of the cell wall, enabling the host to combat the disease using its own immune system. Tuberculosis (TB) N-acetyltransferase Thymine Tyrosine Immune system Dissertations -- Medical biochemistry Theses -- Medical biochemistry
3	Identification of novel ligands of WDR47, using yeast two-hybrid analysis McGillewie, L. 12 1900 (has links) Thesis (MScMedSc (Biomedical Sciences. Molecular Biology and Human Genetics. Medical Biochemistry))--University of Stellenbosch, 2009. / The mammalian neocortex contributes to the increasing functional complexity of the mammalian brain, partly because of its striking organisation into distinct neuronal layers. The development of the neocortex has been well studied because disrupted neurodevelopment results in several human diseases. The basic principles of neocortical development have been well established for some time; however the molecular mechanisms have only recently been identified. One major advance in our understanding of these molecular mechanisms was the discovery of Reelin, an extracellular matrix protein that directs the migration of neurons to their final positions in the developing neocortex. Reelin is a large multi-domain protein that exerts its functions by binding to its ligands on the cell surface and initiating a signal transduction cascade that ultimately results in cytoskeletal rearrangements. Several investigations have been undertaken to elucidate the functions of each of these domains to gain a better understanding reelin’s functions. We have previously identified the WR40 repeat protein 47 (WDR47), a protein of unknown function, as a novel putative ligand for the N-terminal reeler domain of reelin. To gain better understanding into the functional significance of this interaction, the present study sought to identify novel WDR47- interacting proteins. In order to achieve this, a cDNA encoding a polypeptide that contains the two N-terminal domains of WDR47, i.e. the Lis homology and the C-terminal Lis homology domain (CTLH) was used as bait in a Y2H screen of a foetal brain cDNA library. Putative WDR47 ligands were subsequently verified using 3D in vivo co-localisation. Results of these analyses showed that SCG10, a microtubule destabilizing protein belonging to the stathmin family of proteins, interacted with the N-terminal of WDR47. The identification of SCG10 as a novel WDR47 interacting protein not only sheds some light on the role and function of WDR47 but also aids in a better understanding of the reelin pathway and cortical lamination. Moreover, the data presented here, may also provide researchers with new avenues of research into molecular mechanisms involved in neuronal migration disorders. Reelin WDR47 Neocortical development Yeast two-hybrid Dissertations -- Medicine Theses -- Medicine Dissertations -- Medical biochemistry Theses -- Medical biochemistry Neocortex -- Growth
4	Application of spoligotyping in the understanding of the dynamics of Mycobacterium tuberculosis strains in high incidence communities Streicher, Elizabeth Maria 03 1900 (has links) Thesis (PhD (Biomedical Sciences. Molecular Biology and Human Genetics))--University of Stellenbosch, 2007. / Tuberculosis (TB) is a global health problem and demands rigorous control management efforts. A dramatic increase in the acquisition and spread of drug resistant TB globally has been observed in recent years. A grim picture has emerged for the control program with the discovery of extreme drug-resistant TB, which is virtually untreatable and is of immense concern for the future of TB control. In the last decade strain-specific genetic markers have been identified to examine the molecular epidemiology and spread of TB, including IS6110 DNA-fingerprinting and spoligotyping. Although spoligotyping has less discriminatory power than the gold standard, IS6110 DNA-fingerprinting, it is simpler, faster and less expensive, as it is PCR-based. Spoligotyping has been applied to enhance our understanding of the dynamics of drug susceptible and drug resistant strains of Mycobacterium tuberculosis in high incidence communities, by studying 3 aspects of the TB epidemic: molecular epidemiology of drug resistant TB, recurrent TB and the evolution of M. tuberculosis. By using spoligotyping and other genotypic and phenotypic analysis of drug-resistant M. tuberculosis isolates from the Western Cape Province of South Africa showed that drug resistance is widespread and recently transmitted. An emerging drug resistant M. tuberculosis outbreak has been identified, termed DRF150, which has specific genotypic characteristics and is resistant to 5 first-line drugs in 45% of the cases. Inappropriate chemotherapy; poor adherence to treatment and prolonged periods of infectiousness due to the delay in susceptibility testing has led to the development and spread of this drug resistant genotype. The study demonstrates the ability of the spoligotyping technique to accurately determine the pathogenic mechanism of recurrent disease by spoligotyping, making it useful in large-scale intervention studies. Application of spoligotyping and a newly developed PCR-method showed that the occurrence of multiple infections was higher than what was previously assumed and also more frequent in retreatment cases than new cases. These findings have important implications for the understanding of protective immunity, and the development and testing of new vaccines and drugs. Various different molecular markers including spoligotyping has been used to reconstruct the evolutionary history of isolates with less than 6 copies of IS6110 element (termed Low Copy Clade (LCC)), which were previously poor defined. It was also shown that LCC is widely disseminated and play an important role in the global tuberculosis epidemic. Reconstruction of the evolutionary relationship of M. tuberculosis Principal Genetic Group 2 strains, identified previously unknown genetic relationships between strain families and laid the foundation to establish correlations between genotype and phenotype. Spoligotyping signatures, created by evolution of the Direct Repeat region in M. tuberculosis, were identified, which will enable the analysis of the strain population structure in different settings and will also enable the rapid identification of strain families that acquire drug-resistance or escape protective immunity in drug and vaccine trials. This study contributed to our understanding of the molecular epidemiology of drug resistant TB, recurrent TB and the evolution of M. tuberculosis in high incidence communities. Dissertations -- Medical biochemistry Theses -- Medical biochemistry Mycobacterium tuberculosis Genetic markers
5	Regulators of dormancy/viability of Mycobacterium tuberculosis inside the human macrophages Botha, Maria Magdalena 03 1900 (has links) Thesis (PhD)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: The investigation was aimed to improve the understanding of the binding interactions between DevS and DevR that are implicated in the regulation of the dormancy response in Mycobacterium tuberculosis. These binding interactions could provide good drug targets for the treatment of persistent tuberculosis, the mechanistic understanding of their binding interactions is important for the development of a validated inhibitor screen. A detailed in silico analysis of the amino acid residues that play a role in the binding of receptor DevR to both kinase DevS and the target DNA was undertaken. A reasonable approximation of the DevS structure was produced using homologous protein structures. In silico docking of DevS to DevR merely produced a set of probable candidate structures, since more than one conformation with similar docked energies was observed. The decision on which one is the more correct form can only be estimated by crystallization of this complex. Therefore, the functional expression and purification of the Dev TCS components were pursued. Denaturing HIS™-select nickel affinity gel purification in the form of matrix-assisted refolding led to the production of functional Dev TCS proteins. To understand the binding of DevR to DNA consensus sequences, as well as the nature of these interactions, a model was built of the full length DevR dimer binding to DNA consensus sequences. Based on this model, single mutations were made to DevR in vitro and their effects assessed in order to validate the model built. During Electrophoretic Mobility Shift Assay (EMSA) analysis, it was found that K179I and N183L mutants prevented the binding of DevR to the DNA consensus sequences. If DevR and DevS binding are to be used in a drug development program, it is essential to have the protocols to accurately measure their interaction, in addition to developing a fundamental understanding of how their interactions occur. The binding affinity of DevR to both DevS and the truncated soluble fragment of DevS (DevS201) were explored, using the BIAcore instrument, an SPR-based biosensor. For sufficiently strong binding between a histidine kinase and a response regulator, the KD needs to be in the nM range. The KD was calculated to be 255 nM for DevS201 and 184 nM for DevS. Therefore it can be concluded that DevS201 binds DevR strongly enough to be used in future studies, and that the BIAcore could be used to screen small-molecule inhibitors of DevR-DevS interactions. / AFRIKAANSE OPSOMMING: Die Dev twee komponent sisteem (TKS) bestaan uit ‘n histidine kinase naamlik (DevS) en ‘n reaksie reguleerder DevR. DevS en DevR is betrokke by die regulering van die dormante stadium van Mycobacterium tuberculosis. Hierdie meganisme kan ‘n deurbraak dwelm teiken vir die behandeling van sluimerende tuberkulose wees. Die meganisme van hierdie bindings interaksies is van kritieke belang, tesame met die ontwikkeling van 'n erkende inhibeerder toets. ‘n Gedetaileerde in silico analise van die aminosuur volgordes wat 'n rol speel in die binding van die reseptor DevR aan beide DevS sowel as die teiken DNS is voltooi. ‘n Model van die DevS struktuur is saamgstel met behulp van homoloë proteïen strukture. In silico mering van DevS aan DevR het `n stel van die waarskynlike kandidaat strukture verskaf, aangesien meer as een konformasie met soortgelyke merings energieë waargeneem is. Die mees waarskynlike vorm kan alleenlik geïndentifiseer word na kristallisasie van hierdie kompleks. Die funksionele uitdrukking en suiwering van die Dev TKS proteine is gevolglik uitgevoer. Funksionele Dev TKS proteïene is verkry deur denaturerende HIS-select nikkel affiniteit jel suiwering, in die vorm van matriks-geassisteerde hervouing te gebruik. Ten einde die binding te verstaan tussen DevR en DNS konsensus volgordes, sowel as die aard van hierdie interaksies, is 'n model gebou van die volle lengte DevR dimeer binding aan DNS konsensus volgordes. Hierdie model is gevalideer deur punt mutasies in DevR te skep en die gevolge daarvan te beoordeel met elektroforetiese mobiliteits verskuiwing reaksie analises. Dit is bevind dat K179I en N183L mutante, verhoed die binding van DevR aan die DNS konsensus volgordes. Die gebruik van DevR en DevS bindings in ‘n dwelm ontwikkelingsprogram, benodig die fundamentele begrip van hoe die interaksies plaasvind, sowel as akkurate protokolle om die interaksies te meet. Die BIAcore instrument, ’n SPR-gebaseerde biosensor, is ingespan om die bindings affiniteit van DevR aan beide DevS en die fragment van DevS (DevS201) te ondersoek. Om voldoende sterk binding tussen DevS en die DevR te verseker, moet die KD in die nM omgewing wees. Die KD is bepaal as 255 nM en 184 nM vir DevS201 en DevS, onderskeidelik. Die afleiding kan dus gemaak word dat DevS201 sterk genoeg aan DevR bind om in verdere studies gebruik te kan word, en dat die BIAcore gebruik kan word om klein-molekule inhibeerders van DevR-DevS interaksies te toets. TB Mycobacterium tuberculosis Tuberculosis Interaction between DevS and DevR Amino acid residues Dissertations -- Medical biochemistry Theses -- Medical biochemistry
6	Characterization of the interaction between acetylcholinesterase and laminin : a template for discovering redundancy Swart, Chrisna 03 1900 (has links) Thesis (PhD)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Apart from its primary function in the synaptic hydrolysis of acetylcholine, acetylcholinesterase (AChE) has been shown through in vitro demonstrations to be able to promote various non-cholinergic functions, including cell adhesion and neurite outgrowth, differentiation, and amyloidosis. AChE was also shown to bind to mouse laminin-111 in vitro by an electrostatic mechanism. Previous results suggest that the site on AChE recognised by certain monoclonal antibodies (MAbs) might be critical for differentiation. These MAbs were found to inhibit both laminin binding and cell adhesion in neuroblastoma cells. In this study, the structure and characteristics of this site were investigated, using the AChE-laminin interaction as a template as well as a detailed epitope analysis of the MAbs. The interaction sites of AChE and laminin were investigated using phage display, modelling and docking, synthetic peptides, enzyme linked immunosorbent assays (ELISAs) and conformational interaction site mapping. Docking of AChE with the single-chain variable fragments (scFvs) produced from the phage display showed the major recognition motifs to be the 90Arg-Glu-Leu-Ser-Glu-Asp motif, the 40Pro-Pro-Met-Gly sequence, and the 59Val-Val-Asp-Ala-Thr-Thr (human) motif. Mouse AChE was found to interact with the basic structures Val2718-Arg-Lys-Arg- Leu2722; Tyr2738-Tyr2739, Tyr2789-Ile-Lys-Arg-Lys2793; and Val2817-Glu-Arg-Lys2820, on the 1 G4 domain of laminin. ELISAs using synthetic peptides confirmed the involvement of the AG-73 site (2719-2729). This site overlaps with laminin’s heparin-binding site. Docking showed the major component of the interaction site on AChE to be the acidic Arg90-Glu-Leu-Ser-Glu-Asp95 (omega loop), and also involving the Pro40-Pro-Val42, Arg46 (linked to Glu94 by a salt bridge) and the hexapeptide Asp61 Ala-Thr-Thr-Phe-Gln66. Epitope analysis showed the MAb’s major recognition site to be the sequence Pro40-Pro- Met-Gly-Pro-Arg-Arg-Phe48 (human AChE). The MAbs also reacted with the prolinerich sequences Pro78-Gly-Phe-Glu-Gly-Thr-Glu84 and Pro88-Asn-Arg-Glu-Leu-Ser-Glu- Asp95. These results define the interaction sites involved in the AChE-laminin interaction and suggest that the interaction plays a role in cell adhesion. Despite the in vitro demonstrations of the importance of AChE’s non-classical functions, the AChE knockout survives. Results from this study suggest the possibility of functional redundancy between AChE and other molecules in early development. Using these in vitro findings that AChE is able to bind laminin-111, information on the interaction sites, as well as results from the monoclonal antibody (MAb) epitope analysis, the idea of redundancy was investigated. Docking and bioinformatics techniques were used to investigate structurally similar molecules that have comparable spatiotemporal expression patterns in the embryonic nervous system. AChE has been shown to be involved in the pathogenesis of Alzheimer’s disease, thus molecules associated with brain function and neurodegeneration were also investigated. Molecules with which AChE could be possibly redundant are syndecans, glypicans, perlecan, neuroligins and the low-density lipoprotein receptors and their variants. AChE was observed to dock with growth arrest-specific protein 6 (Gas6) as well as apolipoprotein E3 (ApoE-3) at the same site as the laminin interaction. The AChE interaction site was shown to resemble the apolipoprotein-binding site on the low density lipoprotein receptor, and related molecules, including the low density lipoprotein receptor-related molecule (LRP) and the sortilin-related receptor (SORL1). These molecules, along with apoE, are associated with Alzheimer’s disease. Resemblances to the triggering receptor on myeloid cells (TREM1) were also suggested; this is interesting as AChE has been implicated in both haematopoiesis and haematopoietic cancers. Coimmunoprecipitation results, applied to investigate alternative ligands for AChE, confirmed the AChE-laminin interaction in neuroblastoma cells, and also suggested the existence of other binding partners. In conclusion, characterisation of the AChE-laminin interaction sites and investigation of structurally similar sites in other molecules suggests a role for AChE in the stabilization of the basement membrane of developing neural cells and provides a feasible explanation for the survival of the knockout mouse. Furthermore, the demonstrated similarity of the AChE interaction site to sites on molecules, notably the low density lipoprotein receptor family and SORL1 and their apolipoprotein ligands that are implicated in the pathology of Alzheimer’s disease, as well as the possible link to haematopoietic differentiation and cancers, warrants further investigation. / AFRIKAANSE OPSOMMING: Talle in vitro studies wys dat die ensiem asetielcholienesterase (AChE), behalwe vir sy klassieke rol in die hidrolise van asetielcholien (ACh), ‘n aantal nie-cholinerge rolle vertolk insluitend in sel adhesie, in die uitgroei van neurieten, in differensiering, asook in amyloidosis. Dit is vooraf gewys dat AChE, met behulp van elektrostatiese meganismes, in vitro met muis laminin-111 kan bind. Dit word verneem dat die area op AChE wat herken word deur monoklonale teenliggaampies (MAbs), moontlik ‘n kritiese area is met betrekking tot differensiasie. Dieselfde MAbs is gevind om beide die laminin-interaksie, sowel as sel adhesie van neuroblastoma selle, te inhibeer. In hierdie projek word die struktuur en eienskappe van die betrokke kritiese areas ondersoek deur die AChE-laminin interaksie te gebruik as sjabloon. ‘n Gedetailleerde analise van die teenliggaam epitoop het ook geskied. Met behulp van faag vertoon, modellering en hegting, sintetiese peptiede, ensiem-gekoppelde immunosorbent toetse (ELISAs) en konformasie interaksie area kartering, is die betrokke interaksie areas bestudeer. Hegting van enkel-ketting varierende fragment (scFv) volgordes, verkry vanaf die vaag vertoon, aan AChE dui dat die hoof herkennings motiewe die 90Arg-Glu-Leu-Ser-Glu-Asp motief, die 40Pro-Pro- Met-Gly volgorde, en die 59Val-Val-Asp-Ala-Thr-Thr (mens) motief is. ‘n Interaksie tussen muis AChE en die 1 G4 domein van laminin is gevind. Die interaksie betrek die basiese structure: Val2718-Arg-Lys-Arg-Leu2722; Tyr2738-Tyr2739, Tyr2789-Ile-Lys-Arg- Lys2793; en Val2817-Glu-Arg-Lys2820. Die betrokkenheid van die AG-73 (2719-2729) area by hierdie interaksie is bevestig met ELISA eksperimente wat sintetiese peptiede inkorporeer. Die AG-73 area oorvleuel die heparin interaksie area op laminin. Hegtings eksperimente wys dat die hoof komponent van die interaksie area op AChE die suur volgorde Arg90-Glu-Leu-Ser-Glu-Asp95 op die omega-lus is. Die interaksie betrek ook die Pro40-Pro-Val42, Arg46 (gekoppel aan Glu94 deur ‘n sout-brug) en die heksapeptied Asp61 Ala-Thr-Thr-Phe-Gln66 motiewe. Analise van die MAb epitoop wys die hoof erkennings area as volgorde Pro40-Pro-Met-Gly-Pro-Arg-Arg-Phe48 (mens AChE). Die MAbs blyk ook gunstig te wees teenoor prolien-ryke volgordes soos Pro78-Gly-Phe-Glu-Gly-Thr-Glu84 en Pro88-Asn-Arg-Glu-Leu-Ser-Glu-Asp95. Die areas betrokke by die AChElaminin interaksie is dus gedefinieer en ‘n moontlike rol vir hierdie interaksie in sel adhesie word voorgestel. Die noodsaaklikheid van AChE se nie-klassieke funksies word bevraagteken na die oorlewing van die AChE uitklop-muis. Resultate hier dui op die moontlikheid van funksionele oortolligheid as verduideliking hiervan, spesifiek met betrekking tot molekules betrokke in vroëe ontwikkeling asook in die proses van neurale agteruitgang. Deur gebruik te maak van die in vitro demonstrasies van die AChE-laminin interaksie, informasie verkry ten opsigte van die betrokke interaksie areas, asook resultate verkry vanaf die monoklonale teenliggaam (MAb) epitoop analise, word die idee van funksionele oortolligheid ondersoek. Hegtings en bioinformatika tegnieke is gebruik om molekules met soortgelyke strukture en uitdrukkings patrone in die embrioniese senuweestelses te ondersoek. Ko-immuno presipitasie tegnieke is gebruik om so moontlike alternatiewe ligande vir AChE te ondersoek. Moontlike funksionele oortolligheid van AChE met die volgende molekules is gevind: syndecan; glypican; perlecan; neuroligin; asook die lae-digtheid lipoproteien (LDL) reseptore en hul variante. Hegting van AChE met ’growth arrest-specific’ proteien 6 (Gas6) en die apolipoproteien E3 (apoE3) is gedemonstreer en gevind om dieselfde area as die laminin interaksie te betrek. Die betrokke interaksie area op AChE het ooreenstemminge met die apolipoproteien interaksie area op die LDL reseptor asook met verwante molekules soos die lae-digtheids lipoproteien reseptor-geassosieerde molekuul (LRP) en die sortilingeassosieerde reseptor (SORL1). Hierdie molekules, insluitend apoE, speel beduidende rolle in die patologie van Alzheimer se siekte. Ooreenkomste tussen AChE en die verwekkings reseptor op myeloïde selle (TREM1) is ook voorgestel, die interaksie is van belang siende dat AChE voorheen geassosieer is met beide haematopoiesis en haematopoietiese kankers. Ko-immuno presipitasie resultate bevestig die AChE-laminin interaksie en dui op die moontlike teenwoordigheid van alternatiewe ligande vir AChE in vivo. In konklusie, karakterisering van die AChE-laminin interaksie areas, gepaard met identifisering van struktureel ooreenstemmende areas in ander molekules, dui op ‘n rol vir AChE in die stabilisering van die basale membraan en verskaf dus ‘n geldige verduideliking vir die oorlewing van die AChE uitklop-muis. Die ooreenstemming van die AChE interaksie area met areas op ander molekules (spesifiek geassosieer met Alzheimer se siekte), asook die moontlike assosiasie van AChE met haematopoietiese differensiering en kanker, lê die grondslag vir verdere ondersoeke. Acetylcholinesterase (AChE) Cell adhesion Monoclonal antibodies (MAbs) AChE-laminin interaction Neurodegeneration Alzheimer’s disease Lipoprotein Dissertations -- Medical biochemistry Theses -- Medical biochemistry
7	Bioinformatics-based strategies to identify PFHBII-causing and HCM main locus and/or HCM modifying mutations Yako, Yandiswa 12 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: Progressive familial heart block type II (PFHBII) is an inherited cardiac conduction disorder of unknown aetiology, which has been described in a South African family. The disorder was mapped to a 2.9 centimorgan (cM) locus on chromosome 1q32.2-32.3. Clinically, PFHBII manifests cardiac conduction aberrations, that progress to a disease of the heart muscle, dilated cardiomyopathy (DCM). DCM is also reported as an end phase in hypertrophic cardiomyopathy (HCM), another heart muscle disorder. These cardiomyopathies are genetically heterogeneous with some of the genes reported as causes of both disorders. Therefore, genes identified as causes of HCM and DCM were considered plausible candidates for PFHBII mutation analysis. Additionally, this study provided an opportunity to assess potential modifiers of HCM. HCM exhibits marked phenotypic variability, observed within and between families harbouring the same causative mutation. Genes within the PFHBII locus were selected for PCR-SSCP analysis based on homology to genes previously reported as causing conduction system disorders associated with arrhythmias, DCM and/or HCM. Results were confirmed by direct sequencing and association between the detected variants and HCM parameters was assessed using a quantitative transmission disequilibrium test (QTDT). Eleven plausible candidate genes were selected within the PFHBII locus and two of the genes, PFKFB2 and ATF3, that encode for 6-phosphofructo-2,6-bisphosphatase (PFK-2/FBPase-2) and activating transcription factor 3 (ATF3), respectively, were analysed for PFHBII-causing and HCM main locus and/or HCM modifying mutations. Mutation analysis of PFKFB2 and ATF3 in the PFHBII family revealed no PFHBII causal mutation. PFKFB2 and ATF3 were later localised outside the PFHBII locus, and, therefore, were excluded as PFHBII plausible candidates. Further analysis of the two genes for HCM main locus and/or HCM modifying mutations in the HCM panel identified several sequence variants. QTDT analysis of these variants showed no significant association. Completion of the Human Genome Project (HGP) and annotation of new genes within the PFHBII locus allowed the identification of more PFHBII plausible candidate genes. Identification of causal mutations in plausible PFHBII candidate genes will allow molecular diagnosis of PFHBII pathophysiology. Furthermore, identification of both HCM-modifying and HCM-causing genes will give insight into the phenotypic variability noted among South African HCM-affected individuals and into the molecular cause of the disease among individuals with HCM-like clinical features. / AFRIKAANSE OPSOMMING: Progressiewe familiële hartblok tipe II (PFHBII) is ŉ oorgeërfde hart geleidingsiekte van onbekende etiologie wat in ŉ Suid-Afrikaanse familie beskryf is. Die siekte is ŉ 2.9 sentimorgan (cM) lokus op chromosoom 1q32.2-32.3 gekarteer. Klinies presenteer PFHBII met geleidingsfwykings wat uitloop op gedilateerde kardiomiopatie (DCM). DCM word ook gerapporteer as ŉ endfase in hipertrofiese kardiomiopatie (HCM), ŉ ander hartspiersiekte. Die kardiomiopatieë is geneties heterogeen, met ŉ aantal gene wat as oorsaak van altwee siektetoestande gerapporteer word. Daarom is alle gene wat geïdentifiseer is as oorsake van DCM en HCM, as moontlike kandidaatgene vir PFHBII mutasieanaliese beskou. Bykomend het hierdie studie die geleentheid gebied om potensiële modifiseerders van HCM te assesseer. HCM toon beduidende fenotipiese variasie binne en tussen families wat dieselfde siekteveroorsakende mutasie het. Gene binne die PFHBII-lokus is geselekteer vir PCR-SSCP-analiese gebaseer op homologie met gene wat voorheen gerapporteer is om betrokke te wees by geleidingsiesisteemsiektes, geassosieerde arritmieë, DCM en/of HCM. Resultate is bevestig deur volgordebepaling. Assosiasie tusssen ontdekte variante en die siekteparameter is bepaal met ŉ kwantitatiewe transmissie disekwilibrium toets (QTDT). Elf moontlike kandidaatgene in die PFHBII-lokus is geselekteer en twee van die gene, PFKFB2 en ATF3, wat kodeer vir 6-fosfofrukto-2,6-bifosfatase (PFK-2/FBPase-2) en aktiveringstranskripsiefaktor 3 (ATF3) respektiewelik, is vir PFHBII-oorsakende en HCMhooflokus en/of HCM-modifiseerende mutasies ondersoek. Mutasie-analiese van PFKFB2 en ATF3 in die PFHBII-familie het nie ŉ siekteveroorsakende mutasie onthul/uitgelig nie. PFKFB2 en ATF3 is later buite die PFHBII-lokus geplaas en dus ook as moontlike PFHBII-kandidate uitgesluit. Verdere ondersoek van díe twee gene vir HCM-hooflokus en/of HCM-modifiserende mutasies in die HCM-paneel het ŉ aantal volgorde variante geïdentifiseer. QTDT-analiese van die variante het geen beduidende assosiasies aangetoon nie. Voltooiing van die Menslike Genoom Projek (HGP) en annotasie van nuwe gene in die PFHBIIlokus het tot die identifikasie van verdere moontlike PFHBII-kandidaatgene gelei. Identifikase van siekte-veroorsaakende mutasies in die moontlike PFHBII-kandidaatgene sal die molekulêre diagnose van PFHBII toelaat en insig in die patofisiologie van die siekte gee. Verder, identifikasie van beide HCM-veroorsakende of HCM-modifiserende gene kan insig gee in die fenotipiese varieerbaarheid wat onder Suid-Afrikaanse HCM-geaffekteerde individue waargeneem word en ook in die molekulêre oorsake van die siekte in individue met HCMsoortige kliniese kenmerke. Heart -- Diseases Heart -- Diseases -- Genetic aspects Heart -- Hypertrophy Progressive familial heart block type 11 Theses -- Medical biochemistry Dissertations -- Medical biochemistry Theses -- Medicine Dissertations -- Medicine
8	Investigation of the ESX-4 secretion system interactome of Mycobacterium tuberculosis Smit, Michelle 12 1900 (has links) Thesis (MScMedSc (Biomedical Sciences. Medical Biochemistry))--University of Stellenbosch, 2010. / Bibliography / ENGLISH ABSTRACT: The genome of the pathogen Mycobacterium tuberculosis contains five copies of the ESAT-6 (ESX) gene cluster region, which encodes for a novel type VII secretion system. These gene cluster regions, which are directly involved in pathogenicity and phagosomal escape, contain genes encoding exported T-cell antigens ESAT-6 and CFP-10. The mechanism of action of the ESX secretion system however, remains largely unknown. This study focused on ESX gene cluster region 4 (ESX-4), which has been shown to be the most ancestral region and is also present in other species of Mycobacteria and even in other high G+C Gram-positive bacteria, such as Corynebacterium diptheriae and Streptomyces coelicolor. This project aimed to investigate the protein-protein interactions of ESX-4 of M. tuberculosis in the model organism Mycobacterium smegmatis by means of Mycobacterial Protein Fragment Complementation (M-PFC). M-PFC is a two-hybrid technique which employs two cloning vectors, pUAB300 (conferring resistance to hygromycin B) and pUAB400 (conferring resistance to kanamycin). Genes of interest are cloned into these vectors and co-transformed into the model organism M. smegmatis after which it is expressed as fusion proteins. Interaction of the proteins allows selective growth on a medium containing the antibiotic trimethoprim. Various interactions were identified throughout this region, including selfinteractions as well as the expected interaction between the ESAT-6 and CFP-10 protein family members esxT and esxU. Since this region is ancestral, ESX-4 provides the basic model of the mechanism of secretion of the type VII secretion system. Many similarities were apparent when the interactions identified for ESX-4 were compared to the interactions previously identified in ESX-3. Interactions identified by means of M-PFC provide a basis for the further study of the structure of this secretion system, and should be confirmed by means of other techniques, such as co-immunoprecipitation. Despite the ability of M-PFC to identify protein-protein interactions in a mycobacterial system, and thus overcoming some of the limitations of the classical yeast two-hybrid model, it must still be regarded as a fishing experiment for potential interactions. A further aim of the project was to construct a knock-out of ESX-4 in the model organism M. smegmatis, which contains three ESX regions, namely ESX-1, -3 and -4. Homologous recombination proved to be an effective technique for the construction of the knock-out, also indicating that ESX-4 is not essential for in vitro growth of M. smegmatis. The knock-out strain showed no morphological differences to the wild type strain of M. smegmatis. The knock-out strain will in future be compared to the wild type strain in various functional studies in order to determine the function of the ancestral ESX region. / AFRIKAANSE OPSOMMING: Die genoom van die patogeen Mycobacterium tuberculosis bavat vyf kopieë van die ESAT-6 geen groep gebiede wat kodeer vir ‘n unieke tipe VII sekresie sisteem. Die geen groep gebiede, wat direk betrokke is by patogenisiteit en fagosomale ontsnapping, bevat gene wat kodeer vir die gesekreteerde T-sel antigene ESAT-6 en CFP-10. Die meganisme van die ESX sekresie sisteem is egter steeds tot ‘n groot mate onbekend. Hierdie studie het gefokus op die ESX geen groep gebied 4 (ESX-4), wat voorheen bepaal is om die vroegste kopie van die gebied te wees en wat ook in ander species van Mikobakterieë en hoë G+C Gram-positiewe bakterieë, soos Corynebacterium diptheriae en Streptomyces coelicolor, voorkom. Hierdie projek was daarop gemik om die proteïen-proteïen interaksies van ESX-4 van M. tuberculosis in die model organisme Mycobacterium smegmatis te ondersoek deur middel van Mikobakteriële Proteïen Fragment Komplementasie (M-PFK). M-PFK is ‘n twee-hibried tegniek wat van twee kloningsvektore, naamlik pUAB300 (wat weerstand teen hygromycin B bied) en pUAB400 (wat weerstand teen kanamycin bied) gebruik maak. Gene van belang word in die vektore ingekloneer en in die model organisme, M. smegmatis geko-transformeer, waarna dit as fusieproteïene uitgedruk word. Indien ‘n interaksie tussen die proteïene plaasvind, sal selektiewe groei op ‘n medium wat die antibiotikum trimethoprim bevat, waargeneem word. Verskeie interaksies is in hierdie gebied geïdentifiseer, insluitende self-interaksies, sowel as die verwagte interaksie tussen die ESAT-6 en CFP-10 proteïen familielede esxT en esxU. Aangesien hierdie gebied die vroegste kopie is, bied ESX-4 die basiese model vir die meganisme van sekresie van die tipe VII sekresie sisteem. Wanneer interaksies wat vir ESX-4 geïdentifiseer is met die wat voorheen vir ESX-3 geïdentifiseer is vergelyk word is daar heelwat ooreenkomste. Interaksies wat deur middel van M-PFK geïdentifiseer is, verskaf ‘n basis vir die vêrdere studie van interaksies van hierdie gebied, en sal bevestig moet word deur gebruik te maak van aanvullende tegnieke, soos ko-immunopresipitasie. Ten spyte van die vermoë van M-PFK om proteïen-proteïen interaksies in ‘n mikobakteriële sisteem, wat dus sommige van die beperkings van die klassieke gis twee-hibriedmodel oorkom, te bestudeer, behoort dit steeds as ‘n voorlopige metode van identifikasie beskou te word. ‘n Vêrdere doel van die projek was om ‘n uitslaanmutant van ESX-4 in die model organisme M. smegmatis, wat drie van die ESX gebiede, naamlik ESX-1, -3 en -4 bevat, te skep. Homoloë rekombinasie is bewys om ‘n effektiewe tegniek te wees vir die skep van ‘n uitslaanmuntant en het daarop gedui dat ESX-4 nie essensieel is vir die in vitro groei van M. smegmatis nie. Die uitslaanstam het ook geen morfologiese verskille getoon teenoor die oorspronklike stam nie. Die uitslaanmutant sal in die toekoms gebruik word in ‘n verskeidenheid funksionele studies waar dit vergelyk sal word met die oorspronklike stam, ten einde die funksie van die vroegste ESX-gebied te bepaal. / Medical Research Council of South Africa / National Research Foundation of South Africa / Ernst and Ethel Eriksen Trust Type VII secretion Targeted genetic knock-outs Mycobacterial two-hybrid techniques Model of ESX-4 secretion Theses -- Medical biochemistry Dissertations -- Medical biochemistry Theses -- Medicine Dissertations -- Medicine Biomedical Sciences
9	Distinct immune profiles of recently exposed household contacts in a tuberculosis endemic setting in the Western Cape Ngombane, Nokwanda Crystal 03 1900 (has links) Thesis (MScMedSc)--University of Stellenbosch, 2011. / Please refer to full text to view abstract. Tuberculosis -- Etiology Immunology Theses -- Medical biochemistry Dissertations -- Medical biochemistry Biomedical Sciences
10	Characterization of tuberculous lesions in naturally infected African buffalo (Syncerus caffer) Laisse, Claudio Joao Mourao 12 1900 (has links) Thesis (MScMedSc (Biomedical Sciences. Medical Biochemistry))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Mycobacterium bovis has a wide host range and infects many wild and domestic animal species as well as humans. African buffalo (Syncerus caffer) is considered to be a wildlife reservoir of M. bovis in certain environments in South Africa, such as in the Kruger National Park (KNP) and Hluhluwe-iMfolozi Park (HiP). A detailed pathological study was conducted on 19 African buffalos (Syncerus caffer) from a herd in the HiP in South Africa. The animals tested positive to the intradermal bovine tuberculin test and were euthanazed during a test-and-cull operation to decrease the prevalence of bovine tuberculosis (bTB) in the park. The superficial, head, thoraxic and abdominal lymph nodes and the lungs were examined grossly for presence of tuberculous lesions and were scored on a 1-5 scale for macroscopic changes. The gross lesions were examined histologically and scored I-IV according to a grading system used for bTB lesions in domestic cattle. Macroscopical lesions were limited to the retropharyngeal, bronchial, and mediastinal lymph nodes and the lungs. The most frequently affected lymph nodes were the bronchial (16/19) and mediastinal (11/19). All four grades of microscopic lesions were observed, although grade II lesions were the most frequent. Acid-fast bacilli were observed only rarely. Bovine tuberculosis was confirmed by PCR analyses. All animals were in good body condition and most of the lesions were in an early stage of development, indicating an early stage of the disease. The absence of lesions in the mesenteric lymph nodes and the high frequency of lesions in respiratory tract associated lymph nodes suggest that the main route of M. bovis infection in African buffalo is inhalatory rather than alimentary. This study presents a systematic evaluation and semiquantification of the severity and stages of development of tuberculous lesions in buffalo. The results may contribute to i) the understanding of the pathogenesis of the disease, ii) the evaluation of experimental models of M. bovis infection in Syncerus caffer, and iii) the interpretation of pathological data from vaccination trials. / AFRIKAANSE OPSOMMING: Mycobacterium bovis het ‘n wye reeks van gashere en dit infekteer verskeie wilde en mak dierespesies, sowel as mense. Die buffel (Syncerus caffer) word beskou as die wild reservoir van M. bovis in sekere dele van Suid Afrika, soos in die Kruger Nasionale Park (KNP) en Hluhluwe-iMfolozi Park (HiP). ‘n Breedvoerige patologiese studie is uitgevoer op 19 buffels afkomstig vanaf ‘n trop in die HiP in Suid Afrika. Die diere het almal positief getoets vir die intradermale beestuberkulin toets en is uitgesit tydens ‘n toets-en-slag operasie met die doel om die voorkoms van beestuberkulose (bTB) in die park te bekamp. Die oppervlakkige, kop, toraks en abdominale limfknope en longe is oorsigtelik ondersoek vir die teenwoordigheid van tuberkulose letsels en was ‘n punt toegeken op ‘n skaal van 1-5 vir die teenwoordigheid van makroskopiese veranderinge. Die opsigtelike letsels is histologies ondersoek en ‘n I-IV punt toegeken volgens die gradering wat gebruik word vir bTB letsels in beeste. Makroskopiese letsels was beperk tot die retrofaringeale, brongiale, en mediastinale limfknope en in die longe. Die brongiale (16/19) en mediastinale (11/19) limfknope was meestal geaffekteerd. Al vier grade van mikroskopiese letsels is gevind, alhoewel graad II letsels die volopste was. Suur-vaste basille is slegs selde waargeneem. Beestuberkulose is bevestig deur PKR analises. Al die diere was in ‘n goeie kondisie en meeste van die letsels was in ‘n vroeë stadium van ontwikkeling, wat aandui op ‘n vroeë fase van die siekte. Die afwesigheid van letsels in die mesenteriese limfknope en die hoë frekwensie van letsels in die lugweg geassosieerde limfkliere dui daarop dat the belangrikste roete van M. bovis infeksie in die buffel deur inaseming geskied eerder as deur opname in die spysverteringskanaal. Hierdie studie bied ‘n stelselmatige evaluering en semi-kwantifisering van die graad van erns en die stadia van ontwikkeling van tuberkulose letsels in buffels. Die resultate kan bydra tot i) die begrip van die patogenese van die siekte, ii) die evaluering van eksperimentele modelle van M. bovis infeksie in Syncerus caffer, en iii) die interpretasie van patologiese data van inentingsproewe. Theses -- Medical biochemistry Dissertations -- Medical biochemistry Theses -- Medicine Dissertations -- Medicine Syncerus caffer Mycobacterium bovis -- Diagnosis

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