A critical analysis of research done to identify conceptual difficulties in acid-base chemistry.

Halstead, Sheelagh Edith.

January 2009

The literature review shows that student alternative conceptions or misconceptions are important for teaching and learning. Causes of such student difficulties may include the counter-intuitive nature of some chemistry concepts or to instruction itself. However, over 30 years research into student conceptual difficulties has had little impact on teaching and learning chemistry. In this study, a critical analysis and synthesis of published research into student conceptions in acid-base chemistry was carried out in the naturalist nomothetic paradigm using a constructivist framework. Historical models which were included were an operational macroscopic model and the theoretical Arrhenius and Brønsted models. Firstly, a comprehensive search strategy with defined inclusion/exclusion criteria identified 42 suitable reports which were mostly peer-reviewed. The identified research was not limited to Anglophone countries although Africa and South America were underrepresented and research among secondary students predominated. Then a critique of the research showed it was of variable quality and often poorly reported. An outcome was a set of guidelines for research into student conceptions. The variable quality and reporting of research then also necessitated a four-level framework to reflect the stability of descriptions of student difficulties. A new method for synthesis of descriptions of student conceptual difficulties was developed which entailed mapping qualitative data on the difficulties, which had been extracted from research publications, to propositional knowledge statements derived in this study. This was an iterative process which simultaneously honed descriptions of difficulties and illuminated propositional knowledge implicated in them. The second major outcome was synthesized descriptions of 10 student difficulties with acid-base species, 26 difficulties with acid-base properties and 17 difficulties concerning terminology and symbolism particular to acid-base chemistry. Some conceptions were also found to have been mis-reported as ‘misconceptions’. The difficulties could be broadly due to student conceptions concerning acid-base models, or students not relating empirical observations to theoretical models or their poor understanding of underlying chemical principles. Some difficulties were found to have been over-researched, while further work was needed to clarify the nature some difficulties with conceptions of bases, acid-base reactions, and symbolism used in acid-base chemistry. The third major outcome from the synthesis was 218 propositional knowledge statements which were shown to be suitable for teaching high-school students, avoided hybrid historical models and were acceptable to expert chemists. These propositional statements were integrated as a set of 11 concept maps. The maps showed the hierarchy and interconnectedness of concepts as well as the propositional links which had been implicated in the difficulties. Furthermore the concept maps indicated critical concepts where teaching in each topic should focus as well as cross-linked concepts that can be used to integrate different aspects of the topic. Accordingly they contribute to PCK in the acidbase topic as they represent the fine-grained yet well integrated conceptual knowledge characteristic of a teacher with highly developed PCK. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2009.

Concepts.

Comprehension.

Chemical models.

Theses--Biochemistry.

Characterization of the immunity factor in producer self protection against Leucocin A.

Mbele, Prisca.

January 2008

Lactic acid bacteria produce pediocin-like bacteriocins designated as Class Ha. These antimicrobial peptides are antagonistic against Listeria monocytogenes and other closely related Gram-positive bacteria Self-protection of the producer organism is attributed to the immunity proteins, encoded by genes that are eo-transcribed with the structural gene that encode the bacteriocin. The lactic acid bacterium, Leuconostoc gelidum UAL 187-22 is immune to its own bacteriocin, leucocin A. This is accredited to its immunity protein and the possible absence of a receptor on its cytoplasmic membrane. Leucocin A was purified from the supernatant of 1. gelidum to 90% purity by ion-exhange chromatography and C18 reverse phase High Pressure Liquid Chromatography (RP-HPLC) eluted with an acetonitrile, 0.1% Triflouroacetic acid (TFA) gradient. The immunity gene was isolated from the same producer using the polymerase chain reaction from the recombinant plasmid pJF 5.5 using primers EAL-2 and EAL-3. The amplicon was truncated into versions A and B by removing the C- and N-terminals, with HaeIII and ClaI restriction enzymes, respectively. The amplicon and the truncated fragments A and B were cloned into pMALc2 to construct recombinant plasmids pKPl, pKPIA and pKPIB, correspondingly, which were transformed into Escherichia coli (E. coli) strain JMI03. Clones were confirmed by colony PCR and Southern blot hybridization. The recombinant clones were subsequently expressed as MBP-IP, MBP-IPA and MBP-IPB fusion proteins that were verified by Western blot using the anti-MBP antibody. Factor Xa protease was used to cleave MBP from the proteins of interest. The resulting pure immunity protein versions had an approximate molecular weight of slightly more that 10 kDa. The binding interactions of the purified immunity protein constructs and leucocin A were compared on the Biacore 2000 instrument with surface plasmon resonance. None of the immunity constructs interacted with leucocin A, however, the N-terminal region of the immunity protein interacted with the cytoplasmic extract. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.

Bacteriocins.

Bacteriocins--Genetic aspects.

Cellular immunity.

Cellular immunity--Genetic aspects.

Genetics.

Lactic acid bacteria.

Immunogenetics.

Theses--Biochemistry.

The influence of ionic strength on the kinetics of selected enzymes.

Chuntharpursat, Eulashini.

January 2005

pH studies are used to gain insight into chemical mechanisms of enzyme catalysed reactions. However, perhaps the most important practical point that is often overlooked in pH studies is control of the ionic strength of reaction mixtures at the various pH values. For example, cathepsins Band L were suspected to be involved in cancer invasion but pH vs activity profiles indicated that they were not active at the extracellular pH (pH 7.2). When these profiles were re-evaluated in buffers of constant ionic strength, as opposed to buffers of constant molarity, it was shown that the enzymes were indeed active at pH 7.2. Other enzymes have also been reported to be sensitive to ionic strength. These include neutrophil elastase, class sigma glutathione S-transferase and penicillin G-acylase amongst others. The effects of increasing ionic strength on the activity of six enzymes were investigated. a-Glucosidase (from bakers ' yeast), elastase (human leukocyte) and trypsin (bovine pancreatic), cathepsin L (sheep liver), cathepsin B (rabbit liver), fruit bromelain (pineapple fruit) were subjected to different ionic strength buffers and their activities and Km and Vmax were determined as a function of ionic strength. The influence of ionic strength on Ki values has not been previously reported and was also studied, using the interaction between chicken egg-white cystatin C and cathepsin L as a model. a-Glucosidase was found to have an ionic strength optimum and elastase showed increasing activity with an increase in ionic strength. Trypsin activity decreased with increasing ionic strength with a substrate containing a positively charged side chain in the P1 position, and an increase in activity with a substrate containing a hydrophobic group at the P1 position. Cathepsin B activity increased when acting on the substrate Z-Phe-ArgNHMec and decreased when acting on Z-Arg-Arg-NHMec, with increasing ionic strength. Bromelain showed an increase in activity with increasing ionic strength. Cathepsin L activity decreased at increasing ionic strength and the Ki values for the cathepsin L-cystatin C interaction increased with increasing ionic strength. The results obtained can be attributed to the nature of the specificity pockets involved in binding the substrate, effects on the catalytic mechanism of the enzyme or structural changes due to increasing ionic strength. These results show that the ionic strength is a significant variable and should be kept constant or at in vivo levels when assaying enzymes. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2005.

Ionic solutions.

Enzymes.

Enzyme kinetics.

Hydrogen-ion concentration.

Buffer solutions.

Enzyme inhibitors.

Hydrolases.

Proteinase.

Glucosidases.

Ions.

Theses--Biochemistry.

Cloning and recombinant expression of a 822 bp region of a Pf403 Plasmodium falciparum gene.

Smallie, Timothy Ian.

January 2003

Malaria is a devastating parasitic disease in humans caused by species in the genus Plasmodium. With over 100 million cases and at least 1.5 million fatalities each year, the disease accounts for 4-5% of all fatalities in the world. A recent increase in the number of malaria cases in South Africa has imposed severe costs on the economy and public health. Immunity to malaria is a multi-component system involving both B and T celllymphocytes. Pc96 is a 96 kDa antigen identified in the mouse malaria model Plasmodium chabaudi adami. It is known to be associated with the outer membrane of mouse erythrocytes infected with the parasite and has shown protective roles in mice challenged with P. chabaudi adami. A specific T cell clone has been identified that adoptively provides protection to athymic mice infected with P. chabaudi adami. Antibodies raised against Pc96 identified proteins that induced the proliferation of the protective T cell clones. At least four other antigens of different species of. malaria share at least one cross-reactive epitope. In an attempt to identify a Plasmodiumfalciparum homologue ofPc96, the amino-acid sequence was used in a BLAST search of the P. falciparum genome database, identifying a 403 kDa protein with a high degree of homology to Pc96. Sequence alignments indicated a region spanning 90 amino acids in Pf403 that overlaps the Pc96 amino acid sequence. A 178 kDa protein in P. yoelii yoelii (Pyy178) was shown to be highly similar to Pc96. Tvcell epitope prediction programs identified putative T cell epitopes in Pc96 which appear to be conserved in Pf403 and Pyy178. A casein kinase IT phosphorylation site was also identified in this region and is conserved in both sequences. PCR primers were designed to amplify regions of the MAL3P6.11 gene coding for Pf403 from P.falciparum genomic DNA. An 817 bp region in the MAL3P6.11 gene was amplified. This codes for the region ofPf403 that shows high homology to Pc96 and contains the conserved T cell epitopes and casein kinase phophorylation site. A BamHI site was incorporated into the forward primer to facilitate in-frame ligation with cloning vectors. The PCRproduct obtained was verified by restriction analysis using HindIII and EcoRI sites within the fragment. The 817 bp peR product was cloned into the pMOSBlue vector using a blunt-endedPCR cloning kit, and transformed into MOSBlue competent cells. Recombinants were identified using the uIV complementation system, and verified by PCR, plasmid DNA isolation, and restriction digestion analysis. The insertDNA in pMOSBlue was cut out with BamHI and sub-cloned into the BamHI site in the pMAL-C2x expression vector. Sequencing ofthe construct confirmed the identity of the cloned insert and showed the sequence to be in frame with the malE gene coding for maltose binding protein (MBP). The fusion protein, MBP-Pf32 .5, was induced and expressed as a 75 kDa protein comprising ofthe 32.5 kDa region ofPf403, and MBP (42.5 kDa) and was detected by anti-MBP antibodies, by western blotting. This recombinant protein has many applications for further studies involving the characterisation of the Pf403 protein, and the determination of possible roles that the protein may have in stimulating an immune response during human malaria infections. / Thesis (M.Sc.) - University of Natal, Pietermaritzburg, 2003.

Plasmodium falciparum.

Proteins.

Malaria--Research.

Malaria--Immunological aspects.

Plasmodium yoelii yoelii.

Cloning.

Recombinant proteins.

Malaria vaccine--Research.

Theses--Biochemistry.

Characterisation of infectious bursal disease virus (IBDV) polyprotein processing.

Vukea, Phillia Rixongile.

January 2011

Infectious bursal disease virus (IBDV) is a birnavirus that infects the B-cells in the bursa of Fabricius of young chickens, causing Gumboro disease. The IBDV 114 kDa polyprotein (NH2-pVP2-VP4-VP3-COOH) is thought to be processed at 512Ala-Ala513 and 755Ala-Ala756 through the proteolytic activity of VP4, a serine protease which uses a Ser/Lys catalytic dyad, to release pVP2, VP4 and VP3. Precursor VP2 (pVP2) is further processed at its C-terminus to generate VP2 and structural peptides through the cleavage of the 441Ala-Phe442, 487Ala-Ala488, 494Ala-Ala495 and 501Ala-Ala502 peptide bonds to release VP2 and four structural peptides, pep46, pep7a, pep7b and pep11. While the processing at the 441Ala-Phe442 site was shown to be mediated by the endopeptidase activity of VP2, the processing at the other two sites is not well understood. The products resulting from the processing of the IBDV polyprotein were previously identified by anti-VP2 and anti-VP3 antibodies. The present study used anti-VP4 peptide antibodies to identify products resulting from the IBDV polyprotein processing. It was hypothesised that VP4 exists in two forms, the embedded form which exists as an integral part of the polyprotein and a mature form which is released after the processing. In order to characterise the two forms of VP4, six different fragments i.e. full-length polyprotein (Met1-Glu1012), truncated polyprotein (Ile227-Trp891), VP4-RA (Arg453-Ala755), VP4-RK (Arg453-Lys722), VP4-ΔVP3 (Ala513-Trp891, called VP4-AW for the sake of simplicity) and VP4-AA (Ala513-Ala755) were amplified from the IBDV dsRNA, cloned into a T-vector and sub-cloned into several expression vectors. The constructs were sequenced prior to expression. The sequence of the polyprotein coding region was used to determine the pathotype of the isolate used for viral dsRNA isolation. This isolate was from IBDV-infected bursae harvested from commercial chickens during an IBD outbreak in KwaZulu-Natal, South Africa in 1995, thus naming the isolate SA-KZN95. The comparison of the deduced amino acid sequence of SA-KZN95 polyprotein with 52 sequences of other IBDV strains highlighted 21 residues which could be molecular markers of different IBDV pathotypes. The residues of SA-KZN95 were identical to those of the Malaysian very virulent UPM94/273 strain. The constructs representing the embedded and mature forms of VP4 were recombinantly expressed. Processing was observed from the expression of the full-length polyprotein, truncated polyprotein, VP4-RA, VP4-RK and VP4-AW, but not from VP4-AA expression. The mutation of the Ser/Lys catalytic dyad in the full-length polyprotein, truncated polyprotein, VP4-RA, VP4-RK and VP4-AW, prevented processing thus verifying that the proteolytic activity was due to VP4. Anti-VP4 peptide antibodies were raised in chickens for the identification of the polyprotein cleavage products. The anti-VP4 peptide antibodies detected more cleavage products than expected from the polyprotein, suggesting that additional or different cleavage sites may be used. The characterisation of the cleavage products suggested that the processing for the release of VP4 occurs either at the 487Ala-Ala488 or the 512Ala-Ala513 site in a single polyprotein molecule. Ultimately, an IBDV polyprotein processing strategy that would explain the release of the additional products was proposed in the present study. The present study also illustrated the importance of Pro377 in the processing of the polyprotein where its replacement with Leu induced a prominent change in polyprotein processing. The mutation seemed to induce structural changes that may possibly affect the cleavage sites. Although no autocatalytic activity was observed during the expression of VP4-AA (mature form), it cleaved mutant VP4-RK in trans. It seemed to be active as a dimer on a gelatine gel but no activity was observed against a dialanyl fluorogenic peptide substrate. It also appeared to form peptidase-inhibitor complexes with anti-thrombin III. The present study also describes attempts to detect native VP4 in IBDV-infected bursa homogenates by anti-VP4 peptide antibodies on a western blot and by proteolytic activity determination on gelatine-containing SDS-PAGE gels. The findings of the study provide new information that may contribute to the development of anti-viral agents. These anti-viral agents may target polyprotein processing, capsid assembly and thus prevent virus replication during IBDV infection. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2011.

Chickens--Virus diseases--South Africa.

Bursa Fabricii--Diseases--South Africa.

Proteolytic enzymes.

Proteins.

Immunoglobulins.

Antiviral agents--South Africa.

Theses--Biochemistry.

An investigation into the bioactivity of Sutherlandia frutescens (Cancer bush)

Egbichi , Ifeanyi M.

03 1900

Thesis (MSc (Biochemistry))--University of Stellenbosch, 2009. / Sutherlandia frutescens (S. frutescens), sub-species microphylla, is a member of the Fabacea family and is used as a herbal remedy for the treatment of several ailments which include influenza, diabetes, cancer, tuberculosis, chronic fatigue syndrome, rheumatoid arthritis, anxiety, clinical depression, and more recently, those living with human immunodeficiency virus/ acquired immune deficiency syndrome (HIV/AIDS) (1-4). Many of the symptoms of these ailments are associated with a perturbation of the stress response which may be associated with disorders of the endocrine system. Of all the traditional plants in South Africa, S. frutescens is regarded the most profound in that it is a multipurpose traditional remedy. The plant has enjoyed a long history of use and reports indicating its efficacy as a safe treatment for various health conditions have added to the popularity of this medicinal plant. The extracts of S. frutescens have been shown to exhibit anti-proliferative effects on cancer cells, antioxidant activity, and to possess anti-diabetic and anti-inflammatory potential (5, 6), providing scientific evidence for its therapeutic use in the treatment of cancer and diabetes. However, this study focuses on the potential use of this medicinal plant in the treatment of stress and stress related diseases. Chronic stress is characterized by elevated plasma levels of glucocorticoids. These steroid hormones are synthesized in the adrenal cortex in a series of reactions involving the steroidogenic enzymes. The major aim of this thesis was the determination of the influence of S. frutescens extracts on the adrenal cytochrome P450 enzymes. Aqueous, methanol and chloroform S. frutescens extracts were prepared and the interaction with the cytochrome P450 enzymes was investigated. The effect of these extracts towards progesterone (PROG), deoxycortisol and deoxycorticosterone (DOC) binding to the cytochrome P450 enzymes as well as their influence on the metabolism of these steroid substrates was investigated. A similar study (7) showed that compounds from the S. frutescens extracts could interact with these enzymes and possibly affect adrenal steroidogenesis. This study further investigates the bioactive properties of the plant material in terms of the influence of S. frutescens on the cytochrome P450 enzymes and the effect of the manufacturing process on the bioactivity of the plant.

Bioactivity

Sutherlandia frutescens

Cancer bush

Medicinal plants

Materia medica, Vegetable

Cytochrome P-450

Enzymes

Dissertations -- Biochemistry

Theses -- Biochemistry

Applications of generalised supply-demand analysis

Christensen, Carl David

03 1900

Thesis (MSc)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Supply-demand analysis (SDA) is a tool that allows for the control, regulation and behaviour of metabolic pathways to be understood. In this framework, reactions are grouped into reaction blocks that represent the supply and demand of a metabolic product. The elasticities of these supply and demand blocks can be used to determine the degree of control either block has over the flux in the pathway and the degree of homoeostasis of the metabolic product that links the blocks. Rate characteristic plots, on which the rates of supply and demand blocks are plotted as functions of the concentration of the linking metabolite, represent a powerful visual tool in this framework. Generalised supply-demand analysis (GSDA) allows for the analysis of metabolic models of arbitrary size and complexity without prior knowledge of the regulatory structure of the pathway. This is achieved by performing SDA on each variable metabolite in a pathway instead of choosing a single linking metabolite. GSDA also provides other benefits over SDA as it allows for potential sites of regulation and regulatory metabolites to be identified. Additionally it allows for the identification and quantification of the relative contribution of di erent routes of regulation from an intermediate to a reaction block. Moiety-conserved cycles present a challenge in performing in silico SDA or GSDA, as the total concentration of a moiety must remain constant, thereby limiting the range of possible concentrations of the metabolites between which it cycles. The first goal of this thesis was to develop methods to perform GSDA on two-membered and interlinked moiety-conserved cycles. We showed that by expressing the members of a moiety-conserved cycle as a ratio, rather than individual metabolite concentrations, we can freely vary the ratio without breaking moiety conservation in a GSDA. Furthermore, we showed that by linking the concentrations of the members of two interlinked two-membered moiety-conserved cycles to a “linking metabolite”, we could vary the concentration of this metabolite, within constraints, without breaking moiety conservation. The Python Simulator for Cellular Systems (PySCeS) is a software package developed within our group that provides a variety of tools for the analysis of cellular systems. The RateChar module for PySCeS was previously developed as a tool to perform GSDA on kinetic models of metabolic pathways by automatically generating rate characteristic plots for each variable metabolite in a pathway. The plots generated by RateChar, however, were at times unclear when the models analysed were too complex. Additionally, invalid results where steady-states could not be reached were not filtered out, and therefore appeared together with valid results on the rate characteristic plots generated by RateChar. We therefore set out to improve upon RateChar by building plotting interface that produces clear and error-free rate characteristics. The resulting RCFigure class allows users to interactively change the composition of a rate characteristic plot and it includes automatic error checking. It also provides clearer rate characteristics with e ective use of colour. Using these tools two case studies were undertaken. In the first, GSDA was used to investigate the regulation of aspartate-derived amino acid synthesis in Arabidopsis thaliana. A central result was that the direct interaction of aspartate-semialdehyde (ASA), a metabolite at a branch point in the pathway, with the enzyme that produces it only accounts for 7% of the total response in the flux of supply. Instead, 89% of the observed flux response was due to ASA interacting with of the downstream enzymes for which it is a substrate. This result was unexpected as the ASA producing enzyme had a high elasticity towards ASA. In a second case study moiety-conserved cycles in a model of the pyruvate branches in lactic acid bacteria were linearised using the above mentioned method. This served to illustrate how multiple reaction blocks are connected by these conserved moieties. By performing GSDA on this model, we demonstrated that the interactions of these conserved moieties with the various reaction blocks in the pathway, led to non-monotonic behaviour of the rate characteristics of the supply and demand for the moiety ratios. An example of this is that flux would increase in response to an increase in product for certain ranges. This thesis illustrates the power of GSDA as an entry point in studying metabolic pathways, as it can potentially reveal properties of the regulation and behaviour of metabolic pathways that were not previously known, even if these pathways were subjected to previous analysis and a kinetic model is available. In general it also demonstrates how e ective analysis tools and metabolic models are vital for the study of metabolism. / AFRIKAANSE OPSOMMING: Vraag-en-aanbod analise (VAA) is ’n analisemetode wat mens in staat stel om die beheer, regulering en gedrag van metaboliese paaie beter te verstaan. In hierdie raamwerk word reaksies gegroepeer as reaksieblokke wat die aanbod (produksiestappe) en die aanvraag (verbruik-stappe) van ’n metaboliese produk verteenwoordig. Vanaf die elastisiteite van hierdie aanbod- en aanvraag-blokke kan die graad van beheer van elkeen van die blokke oor die fluksie, asook die graad van homeostase van die metaboliese koppelingsintermediaat, bereken word. Snelheidskenmerk-grafieke, waarop die snelhede van die vraag- en aanbod-blokke as funksies van die konsentrasie van die koppelingsmetaboliet uiteengesit word, verteenwoordig ’n kragtige visuele hulpmiddel in hierdie raamwerk. Veralgemeende vraag-aanbod analise (VVAA), die veralgemeende vorm van VAA, maak dit moontlikommetaboliese modelle van arbitrêre grootte en kompleksiteit te analiseer sonder enige vooraf-kennis van die regulatoriese struktuur van die paaie. Die prosedure is om VAA op elk van die veranderlike metaboliete in die pad uit te voer, eerder as om ’n enkele koppelingsmetaboliet te kies. VVAA het ook ander voordele bo VAA aangesien dit potensiële setels van regulering en regulatoriese metaboliete kan identifiseer. Daarbenewens kan dit die relatiewe bydrae van verskillende regulerings-roetes van vanaf ’n intermediaat na ’n reaksieblok identifiseer en hulle kwantifiseer. Groep-gekonserveerde siklusse bied ’n uitdaging vir in silico VAA of VVAA, aangesien die totale konsentrasie van die gekonserveerde groep konstant moet bly. Dit beperk die waardes van moontlike konsentrasies van die metaboliete wat die siklus uitmaak. Die eerste doelstelling van hierdie tesis was dus om metodes te ontwikkel waarmee VVAA op tweeledige en saamgebonde groep-gekonserveerde siklusse uitgevoer kan word. Deur die lede van groep-gekonserveerde siklusse eerder as verhoudings uit te druk in plaas van as individuele metabolietkonsentrasies, het ons gewys dat ons hierdie verhouding vrylik kan varieer sonder om die groep-konservering te breek in ’n VVAA. Ons het ook gewys dat die konsentrasies van die lede van ’n saamgebonde groep-gekonserveerde siklus gekoppel kan word aan ’n “koppelingsmetaboliet”, waarvan die konsentrasie dan binne perke gevarieer kan word sonder om die groep-konservering te breek. Die “Python Simulator for Cellular Systems” (PySCeS) is ’n programmatuur-pakket wat binne ons navorsingsgroep ontwikkel is met die doel om sellulêre sisteme numeries te analiseer. Die RateChar module vir PySCeS was reeds voor die aanvang van hierdie projek ontwikkel om VVAAop kinetiese modelle van metaboliese paaie uit te voer deur outomaties snelheidskenmerke vir elke veranderlikke metaboliet te genereer. Die grafieke wat deur RateChar gegenereer is, was egter soms onduidelik wanneer die modelle te groot of kompleks geraak het. Daarbenewens is ongeldige resultate, waar ’n bestendige toestand nie bereik kon word nie, nie uitgefiltreer nie, en het dus saam met geldige resultate op die snelheidskenmerke verskyn. Een van die doelstellings was dus om RateChar te verbeter deur ’n koppelvlak vir grafieke te ontwikkel wat duidelike en foutlose snelheidskenmerke kon produseer. Dit het gelei tot die RCFigure klas wat outomatiese foutopsporing uitvoer en gebruikers in staat stel om op ’n interaktiewe wyse die samestelling van ’n snelheidskenmerkgrafiek te verander. Dit bied ook duideliker snelheidskenmerke deur e ektief van kleur gebruik te maak. Met hierdie ontwikkelde gereedskap is twee gevallestudies onderneem. In die eerste is VVAA gebruik om die regulering van aspartaat-afgeleide aminosuursintese in Arabidopsis thaliana te bestudeer. Die belangrikste resultaat was dat die direkte interaksie van aspartaat-semialdehied (ASA), ’n metaboliet by ’n vertakkingspunt in die pad, met die ensiem wat dit produseer, slegs vir 7% van die totale respons in die aanbod-fluksie verantwoordelik was. Daarteen was 89% van die waargenome fluksierespons die gevolg van die interaksie van ASA met drie van die stroomafensieme, waarvoor dit ’n substraat is. Hierdie resultaat was onverwag aangesien die ensiem wat ASA produseer ’n hoë elastisiteit teenoor ASA toon. In ’n tweede gevallestudie is die groep-gekonserveerde siklusse in ’n model van die pirovaat-takke in melksuurbakterie-metabolisme gelineariseer deur gebruik te maak van die bo beskrewe metode. Dit illustreer hoe verskeie reaksieblokke verbind word deur hierdie gekonserveerde groepe. M.b.v. ’n VVAA van hierdie model het ons gedemonstreer dat die interaksies van die gekonserveerde groepe met die verskeie reaksieblokke in die pad kan lei tot nie-monotoniese gedrag van die snelheidskenmerke van die vraag- en aanbod-reaksies vir die verhouding van die gekonserveerde groep-komponente. ’n Voorbeeld hiervan is die onverwagte waarneming dat die fluksie toeneem met toenemende produk-konsentrasie oor sekere gebiede. Hierdie tesis illustreer die krag van VVAA as ’n beginpunt vir die studie van metaboliese paaie, aangesien dit onbekende regulatoriese eienskappe en gedragspatrone kan ontbloot, selfs al is die paaie vantevore m.b.v. kinetiese modelle geanaliseer. Oor die algemeen demonstreer dit die noodsaaklikheid van e ektiewe analisegereedskap en metaboliese modelle vir die bestudering van metabolisme. / National Research Foundation

Generalised supply-demand analysis

Aspartate-derived amino-acid synthesis

Pyruvate branch metabolism

Python simulator for cellular systems

Dissertations -- Biochemistry

Theses -- Biochemistry

Biochemistry

Preliminary investigations into the phylogenetic relationships in the genus Erica L.

Lester, Ntsikelelo Blessings

12 1900

Thesis (MSc)--University of Stellenbosch, 2006. / ENGLISH ABSTRACT: Erica is a genus of about 860 species world wide, with 700 of these found in South Africa’s southwestern and southern Cape, making it by far the most speciose genus in the Cape Floristic Region. This poses a particular challenge in the construction of a molecular phylogeny of the genus. The choice of suitably variable gene regions is a crucial decision on which the successful phylogenetic reconstruction of this important genus is critically dependent. The aim of this project was therefore to determine which DNA regions, both chloroplast and nuclear, would be sufficiently variable to give adequate informative characters that may be useful at the species level phylogenetic reconstruction. A subset of 30 species, representing the range of morphological diversity and pollinator preference within Erica, was selected for study. For each of these species the variability in eight chloroplast regions (trnL-F, matK, trnS-G, rps12- rpl20, psbAtrnH, trnC-D, rps4-trnT and trnT-L) and the nuclear ITS region was investigated. The psbA-trnH, trnC-D, rps4-trnT and trnT-L chloroplast regions were found to be problematic to amplify and to possess too few Parsimony Informative Characters to be of use in phylogenetic reconstruction. Four of the chloroplast regions, trnS-G, trnL-F, matK and rpS12-rpL20 and the nuclear ITS region could be amplified and sequenced with success. The ITS region was found to be reasonably variable, with the chloroplast genes showing less variability. The DNA extraction method employed showed itself to be of critical importance in the success of the study. Two DNA extraction protocols, both modified from the original Doyle and Doyle (1987) method, were tested. The one included double the amount of β-mercaptoethanol and Polyvinylpyrrolidone (PVP) and the other included an extended phenol: chloroform: isoamylalcohol step. These variables, together with the effectiveness of these methods on fresh vs. silica dried plant samples, were investigated to determine which of the two would yield high quantities and qualities of DNA and result in the best method for the extraction of DNA from Erica species. / AFRIKAANSE OPSOMMING: Erica is ‘n genus van omtrent 860 spesies wêreldwyd, met 700 van hierdie spesies aanwesig in die suidwes en suid Kaap van Suid Afrika, wat dit by verre die mees spesieryke genus in die Kaapse Floristiese Streek maak. Dit stel ’n besondere uitdaging in die konstruksie van ’n molekulêre filogenie van die genus. Die keuse van geskikte variërende geen-areas is ‘n belangrike besluit waarvan die suksesvolle filogenetiese rekonstruksie van hierdie belangrike genus krities afhanklik sal wees. Die doel van hierdie projek was dus om te bepaal watter DNS areas, buide chloroplas en kern, genoegsaam varieer om voldoende informatiewe kenmerke te lewer om bruikbaar te wees in ’n spesie-vlak molekulêre rekonstruksie. ’n Subgroep van 30 spesies, wat die reeks van morfologiese diversiteit en bestuiwer voorkeure in Erica verteenwoordig, is dus vir die studie geselekteer. Vir elk van hierdie spesies is die variasie in agt chloroplast areas (trnL-F, matK, trnS-G, rps12- rpl20, psbA-trnH, trnC-D, rps4-trnT en trnT-L) en die kern ITS area ondersoek. Dit was problematies om die psbA-trnH, trnC-D, rps4-trnT en trnT-L chloroplast areas te amplifiseer, en daar is gevind dat hulle te min Parsimonie Informatiewe Kenmerke besig om bruikbaar te wees in filogenetiese rekonstruksie. Vier van die chloroplas areas, trnS-G, trnL-F, matK en rpS12-rpL20 en die kern ITS kon suksesvol geamplifiseer word en die basisvolgordes kon suksesvol bepaal word. Daar is gevind dat die ITS area redelik variërend is, terwyl chloroplas areas minder variasie getoon het. Die DNS ekstraksie metode wat gebruik is het die kritiese belang van die ekstraksie metode in die sukses van die studie bewys. Twee DNS protokolle, beide gemodifiseer van die oorspronklike Doyle en Doyle (1987) metode, is getoets. Die een het dubbel die hoeveelheid β-mercaptoetanol en Polyvinylpyrrolidone (PVP) bevat, en die het ’n uitgebruide fenol: chloroform: isoamylalkohol stap ingesluit. Hierdie veranderlikes, saam met die effektiwiteit van hierdie metodes op vars teenoor silika-gedroogde plant monsters, is ondersoek om vas te stel watter een van die twee die hoogste kwaliteit en kwantiteit DNS sou lewer en dus sal lei tot die beste DNS ekstraksie metode vir Erica spesies.

Cladistic analysis

Ericas -- Genetics

Chloroplast DNA

Theses -- Biochemistry

Dissertations -- Biochemistry

Theses -- Botany

Dissertations -- Botany

Theses -- Genetics

Dissertations -- Genetics

A study of the strain evolution and recombination of South African isolates of Potato virus Y

Visser, Johan Christiaan

12 1900

Thesis (PhD)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Potato virus Y (PVY) is responsible for considerable yield losses in the South African potato industry. The incidence of this virus has greatly increased over the past 20 years. In previous studies nonrecombinant strains of PVY, PVY N and PVY O, were detected in South African potatoes. In a recent study the occurrence of non-recombinant strains of PVY in South African potatoes was shown to have decreased while infection by more virulent recombinant strains, PVY NTN and PVY N-W, had increased dramatically. Infection of potato plants with PVY may cause stunted growth and mosaic or necrotic leaf symptoms which in turn can lead to a significant reduction in yield. Highly virulent recombinant PVY isolates as well as some of the non-recombinant strains may cause potato tuber necrotic ringspot disease (PTNRD) which may result in losses of 10% to total crop failure. For this reason investigation of infection by local recombinant isolates on local cultivars was important. To this end a representative number of isolates were selected for whole genome sequencing based on the relative occurrence of the various isolates in South Africa. A number of these sequenced isolates were subsequently used to infect local cultivars of potato in order to investigate the influence of genetic variation within the viral genome on symptom expression. In this study 27 South African isolates of PVY were sequenced through overlapping RT-PCR fragments. Seven of these isolates, six PVY NTN and one PVY N-W, were used to mechanically infect four local cultivars of potatoes under greenhouse conditions. The infected plants were monitored to establish the rate of systemic spread using a highly sensitive qRT-PCR and resulting tubers were visually screened for PTNRD. Highly variable recombinant isolates appear to be less virulent than the more conserved recombinant isolates possibly indicating molecular determinants for pathogenicity. For this reason the amino acid sequences of the South African isolates were compared to those of international isolates and scrutinized for variation and substitutions. Some South African isolates displayed amino acid substitutions unique to the specific isolate, making them unlike those found internationally. Substitution rates throughout the amino acid sequences differed greatly, with some isolates displaying hardly any changes whilst others varied a great deal from overseas isolates. Certain regions, many of which had specific functions, were more conserved than others. This study further investigated the recombination events within the PVY genome using reticulate phylogenetic analysis, molecular dating and network construction techniques. Unlike existing approaches, the one described in this study neither assumes an underlying strictly bifurcating species tree nor assumes prior knowledge of processes underlying deviations between individual gene trees. Through the use of the resulting robust time calibrated phylogeny, the patterns of diversification and recombination in PVY may be placed in the historical context of human cultivation of potatoes. Through the use of these techniques the study aimed to test whether diversification of the major strains of PVY and recombination between them occurred within the time frame of the domestication and modern cultivation of potatoes. From these analyses it can be deduced that recombinant strains of PVY were imported into South Africa. / AFRIKAANSE OPSOMMING: Aartappel virus Y (PVY) is verantwoordelik vir aansienlike opbrengs verliese in die Suid-Afrikaanse aartappelbedryf. Die voorkoms van die virus het grootliks toegeneem oor die afgelope 20 jaar. In vorige studies is nie-rekombinante rasse van PVY, PVY N en PVY O, gedokumenteer in Suid-Afrikaanse aartappels. 'n Onlangse studie het gevind dat die voorkoms van nie-rekombinante rasse van PVY in Suid- Afrikaanse aartappels aansienlik gedaal het terwyl infeksie deur virulente rekombinante rasse, PVY NTN en PVY N-W, dramaties toegeneem het. Infeksie van aartappelplante met PVY kan vertraagde groei en mosaïek- of nekrotiese blaarsimptome veroorsaak wat kan lei tot aansienlike vermindering in opbrengs. Hoogs virulente rekombinante PVY isolate, sowel as sommige nie-rekombinante rasse, kan aartappel nekrotiese ring simptome (PTNRD) veroorsaak wat verliese van 10% tot totale misoes tot gevolg kan hê. Om hierdie rede was die ondersoek van infeksie deur plaaslike rekombinante isolate op plaaslike kultivare belangrik. Vir hierdie doel is 'n verteenwoordigende aantal isolate gekies, gebaseer op die relatiewe voorkoms daarvan in Suid-Afrika, vir heelgenoom-volgordebepaling. Van die isolate is vervolgens gebruik om plaaslike kultivare te besmet ten einde die invloed van genetiese variasie binne die virale genoom op simptoom uitdrukking te ondersoek. In hierdie studie is 27 heelgenoomvolgordes van Suid-Afrikaanse PVY isolate bepaal deur oorvleuelende RT-PCR fragmente. Sewe van hierdie isolate, ses PVY NTN en een PVY N-W, is gebruik om vier plaaslike aartappel kultivare, gegroei onder kweekhuis kondisies, meganies te infekteer. Die geïnfekteerde plante is gemonitor om die tempo van sistemiese verspreiding vas te stel deur middel van 'n hoogs sensitiewe qRTPCR en knolle is visueel inspekteer vir PTNRD. Hoogs variante rekombinante isolate blyk om minder virulent te wees as die meer bewaarde rekombinante isolate wat dui op molekulêre determinante van patogenisiteit. Om hierdie rede is die aminosuurvolgordes van die Suid-Afrikaanse isolate vergelyk met die van internasionale isolate en ondersoek vir variasie en substitusies. Sommige Suid-Afrikaanse isolate vertoon aminosuur substitusies wat uniek is tot die spesifieke isolaat en maak hul dus anders as internasionale isolate. Die aantal aminosuursubstitusies in die volgordes verskil grootliks. In vergelyking met internasionale isolate toon sommige isolate skaars enige veranderinge terwyl ander ‘n aantal verskille toon. Sekere gebiede, waarvan baie spesifieke funksies het, was meer gekonserveerd as ander. Hierdie studie ondersoek ook rekombinasie gebeure binne die PVY genoom deur retikulêre filogenetiese analise, molekulêre datering en netwerk konstruksie tegnieke. In teenstelling met bestaande benaderinge, aanvaar die tegniek wat hier beskryf word nie ‘n streng bifurkeerende filogenie, wat onderliggende verdeel, of enige voorafgaande kennis van die prosesse onderliggend aan afwykings tussen individuele filogenieë nie. ‘n Robuuste, tyd gekalibreer filogenie kan diversifikasie patrone en rekombinasie van PVY plaas in die historiese konteks van menslike verbouing van aartappels. Deur gebruik te maak van hierdie tegnieke poog die studie om te toets of diversifikasie en rekombinasie van PVY rasse plaasgevind het binne die tydsbestek van die inburgering en moderne verbouing van aartappels. Van hierdie ontledinge word afgelei dat rekombinante rasse van PVY wat in Suid-Afrika voorkom, ingevoer is.

Reticulate phylogenetic analysis

Potato virus Y

Virus diseases of plants -- South Africa

Dissertations -- Biochemistry

Theses -- Biochemistry

Biochemistry

A candidate and novel gene search to identify the PFHBII-causative gene

Fernandez, Pedro (Pedro Wallace)

12 1900

Dissertation (PhD)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: Heart failure due to cardiomyopathy or cardiac conduction disease is a major cause of mortality and morbidity in both developed and developing countries. Although defined as separate clinical entities, inherited forms of cardiomyopathies and cardiac conduction disorders have been identified that present with overlapping clinical features and/or have common molecular aetiologies. The objective of the present study was to identify the molecular cause of progressive familial heart block type II (PFHBII), an inherited cardiac conduction disorder that segregates in a South African Caucasian Afrikaner family (Brink and Torrington, 1977). The availability of family data tracing the segregation of PFHBII meant that linkage analysis could be employed to identify the chromosomal location of the disease-causative gene. Human Genome Project (HGP) databases have provided additional resources to facilitate the identification of positional candidate genes. Clinical examinations were performed on individuals of the PFHBII-affected family, and, where available, clinical records of subjects examined in a previous study by Brink and Torrington (1977) were re-assessed. Retrospective data suggested redefining the classification of PFHBII. Subsequently, linkage analysis was used to test described dilated cardiomyopathy (DCM), hypertrophic cardiomyopathy (HCM) and cardiac conduction-causative loci on chromosomes 1, 2, 3, 6, 7, 9, 11, 14, 15 and 19 for their involvement in the development of PFHBII. Once a locus was mapped, bioinformatics tools were applied to identify and prioritise positional candidate genes for mutation screening. The retrospective and prospective clinical study redefined PFHBII as a cardiac conduction and DCM-associated disorder and simultaneously allowed more family members to be traced.Fortuitously, candidate loci linkage analysis mapped the PFHBII locus to chromosome 1q32, to a region that overlapped a previously described DCM-associated disorder (CMD1D), by the generation of a maximum pairwise lod score of 3.13 at D1S3753 (theta [θ]=0.0) and a maximum multipoint lod score of 3.7 between D1S3753 and D1S414. However, genetic fine mapping and haplotype analysis placed the PFHBII-causative locus distal to the CMD1D locus, within a 3.9 centimorgan (cM) interval on chromosome 1q32.2-q32.3, telomeric of D1S70 and centromeric of D1S505. Bioinformatics analyses prioritised seven candidate genes for mutation analysis, namely, a gene encoding a potassium channel (KCNH1), an extracellular matrix protein (LAMB3), a protein phosphatase (PPP2R5A), an adapter protein that interacts with a cytoskeletal protein (T3JAM), a putative acyltransferase (KIAA0205) and two genes encoding proteins possibly involved in energy homeostasis (RAMP and VWS59). The PFHBII-causative mutation was not identified, although single sequence variations were identified in four of the seven candidate genes that were screened. Although the molecular aetiology was not established, the present study defined the underlying involvement of DCM in the pathogenesis of PFHBII. The new clinical classification of PFHBII has been published (Fernandez et al., 2004) and should lead to tracing more affected individuals in South Africa or elsewhere. The identification of a novel disease-causative locus may point toward the future identification of a new DCM-associated aetiology, which, in turn, might provide insights towards understanding the associated molecular pathophysiologies of heart failure. / AFRIKAANSE OPSOMMING: Hartversaking as gevolg van kardiomiopatie of kardiale geleidingsiekte is ‘n hoof-oorsaak van mortaliteit and morbiditeit in beide ontwikkelde en ontwikkelende lande. Alhoewel gedefinieer as verskillende kliniese entiteite is oorerflike vorms van kardiomiopatie en kardiale geleidingsstoornisse geïdentifiseer met oorvleuelende kliniese eienskappe en/of molukulêre oorsake. Die doelwit van hierdie studie was om die molukulêre oorsaak van progressiewe familiële hartblok tipe II (PFHBII), ‘n oorerflike kardiale geleidingsstoornis, wat in ‘n Suid-Afrikaanse Kaukasiër familie segregeer (Brink en Torrington, 1977), te identifiseer. Die beskikbaarheid van familie data, beteken dat koppelingsanalise gebruik kan word om die chromosomale posisie van die siekte-veroorsakende geen te identifiseer. Menslike Genoom Projek (MGP) databanke het addisionele hulpbronne beskikbaar gestel om die identifikasie van posisionele kandidaat gene te vergemaklik. Kliniese ondersoeke is uitgevoer op PFHBII-geaffekteerde familielede, en waar beskikbaar is kliniese rekords van persone, wat in ‘n vorige studie deur Brink en Torrington (1977) geassesseer was, herontleed. Retrospektiewe data-analise het die kliniese herdefinisie van PFHBII voorgestel. Daarna is koppelingsanalise gebruik om dilateerde kardiomiopatie (DKM), hipertrofiese kardiomiopatie (HKM) en kardiale geleidingssiekte-veroorsakende loki op chromosoom 1, 2, 3, 6, 7, 9, 11, 14, 15 en 19 te ondersoek vir hul moontlike bydrae tot die ontwikkeling van PFHBII. Toe die lokus gekarteer was, is bioinformatiese ondersoeke gebruik om posisionele kandidaat gene te identifiseer en prioritiseer vir mutasie analise. Die retrospektiewe en prospektiewe kliniese ondersoek het PFHBII herdefinieer as ‘n geleidingsstoornis en DKM-verbonde siekte, en terselfde tyd het dit gelei tot die opsporingvan nog familielede. Toevallig het kandidaat loki-analise die PFHBII lokus op chromosoom 1q32 gekarteer, na ‘n gebied wat met ‘n voorheen-beskyfde DKM-verbonde stoornis (CMD1D) oorvleuel, met die opwekking van ‘n makisimum paargewyse lod-getal van 3.13 by D1S3753 (theta [θ] = 0.0) en ‘n maksimum multipunt lod-getal van 3.7 tussen D1S3753 en D1S414. Genetiese fynkartering en haplotipe-analise het die PFHBII-veroorsakende lokus afwaards van die CMD1D lokus geplaas, in ‘n 3.9 centimorgan (cM) gebied op chromosoom 1q32.2-q32.3, telomeries van D1S70 en sentromeries van D1S505. Bioinformatiese analise het daarnatoe gelei dat sewe kandidaat gene vir mutasie analise geprioritiseerd is, naamlik, gene wat onderskeidelik ‘n kalium kanaal (KCNH1), ‘n ekstrasellulêre matriksproteïen (LAMB3), ‘n proteïen fosfatase (PPP2R5A), ‘n aansluiter proteïen wat met ‘n sitoskilet proteïen bind (T3JAM), ‘n asieltansferase (KIAA0205) en twee gene moontlik betrokke in energie homeostase (RAMP en VWS59) enkodeer. Die PFHBII-veroorsakende geen is nie geïdentifiseer nie, alhoewel enkele volgorde-wisselings geïdentifiseer is in vier van die sewe geanaliseerde kandidaat gene. Alhowel die molekulêre oorsaak van die siekte nie vasgestel is nie, het die huidige studie die onderliggende betrokkenheid van DKM in die pathogenese van PFHBII gedefinieer. Die nuwe kliniese klassifikasie van PFHBII is gepubiliseer (Fernandez et al., 2004) en sal lei tot die identifisering van nog geaffekteerde persone in Suid Afrika of in ander lande. Die identifikasie van ‘n nuwe siekte-verbonde lokus mag lei tot die toekomstige identifikasie van ‘n nuwe DKM-verbonde genetiese oorsaak wat, opsig self, dalk insig kan gee in die molekulêre patofisiologie van hartversaking.

Gene mapping

Heart conduction system

Heart -- Diseases

Progressive familial heart block 11

Cardiac conduction diseases

Cardiac conduction disorders

Theses -- Biochemistry

Dissertations -- Biochemistry

Theses -- Medicine

Dissertations -- Medicine