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41	Characterization of transgenic sugarcane lines with perturbed pyrophosphate: fructose 6-phosphate 1-phosphotransferase (PFP) activity Spracklen, Ashley Lindsay 03 1900 (has links) Thesis (MSc (Genetics))--University of Stellenbosch, 2009. / Pyrophosphate fructose-6-phosphate 1-phosphotransferase (PFP) is an important glycolytic enzyme and catalyses the reversible conversion of fructose-6-phosphate (Fr-6-P) and pyrophosphate (PPi) to fructose 1,6-bisphosphate (Fr-1,6-P2) and inorganic phosphate (Pi). Sugarcane PFP has been inversely correlated with sucrose content across segregating F1 varieties. The down-regulation of PFP in cultivar NCo310 in a previous study led to an increase in sucrose accumulation and fibre content in immature tissue. Several potential transgenic sugarcane lines from genotypes 88H0019 and N27, transformed with the untranslatable sense sugarcane PFP-β gene, were characterized in this study. Initial screening for transgenesis was determined by slot blot and Southern blot analysis to confirm the presence of the co-transformed selectable marker npt II transgene. Northern blot analysis confirmed expression of the 1.2 kb PFP-β transcript in 7 of 9 lines analyzed. Sugar analysis using standard South African Sugarcane Research Institute (SASRI) mill room practices and HPLC was performed on 12 month old pot grown stalks divided into immature and mature tissue sections. The analysis of wild type 88H0019 showed an average sucrose content of 17.84 and 30.76 g sucrose/stalk in immature and mature tissue, respectively. However, no significant difference between the putative transgenic plant values and wild type controls was seen. PFP specific activity was determined in these tissues using enzymatic assay analysis and although levels obtained in immature tissue were between 5-18 nmol/min/mg protein, they were less than values previously reported in sugarcane. The results indicated that no down-regulation of PFP in immature tissue occurred when comparing transgenic and wild type plants. A more discrete internodal tissue sampling method was used to overcome the difficulty of detecting small changes in PFP enzyme activity in bulked stalk tissue sections. Fine analysis of PFP was conducted on specific developmental tissues and single stalks were divided into immature (internodes 1-3), maturing (internodes 4-5) and mature (internodes 7-8) regions. Sucrose analysis was performed using HPLC and PFP activity was determined enzymatically on each tissue type. The analysis of discrete developmental tissues showed specific PFP activity of 60-80 nmol/min/mg protein in young tissue, an amount which falls in the range previously obtained for sugarcane. However there was no significant difference between PFP or sucrose in the transgenic lines when compared with the wild type controls in any of the three developmental tissues examined. Western blotting and densitometric analysis of the blots confirmed the lack of PFP down-regulation in immature tissue in all lines. A final analysis of PFP iv in immature stalk tissue on selected lines was performed using quantitative PCR, which became available near the end of the study. The fold change of each transgenic line indicated that there was a minor increase in PFP confirming the lack of effect of transgenesis. Although evidence for the expression of the PFP-β transgene was seen in the northern blot, no further evidence for transgenesis could be found to support the desired effect of down-regulation of PFP. Characterization of transgenic stalks in this study was hindered by a limited number of lines available for analysis and large variability between replicate samples. Sampling techniques employed in an attempt to make use of existing standard SASRI mill room practices for sugar analysis highlighted the need for a more precise sampling method, specifically when determining the effects of an enzyme manipulation such as PFP. A refined approach has been developed which will assist researchers in the choice of analytical techniques for screening and characterization of potential transgenic lines in the future. Dissertations -- Plant biotechnology Theses -- Plant biotechnology Transgenic plants Sugarcane -- Genetics Pyrophosphates Phosphotransferases Sucrose -- Metabolism
42	The manipulation of fructose 2,6-bisphosphate levels in sugarcane Hiten, Nicholas Fletcher 03 1900 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2006. / Fructose 2,6-bisphosphate (Fru 2,6-P2) is an important regulatory molecule in plant carbohydrate metabolism. There were three main objectives in this study. Firstly, to determine whether the recombinant rat 6-phosphofructo 2-kinase (6PF2K, EC 2.7.1.105) and fructose 2,6-bisphosphatase (FBPase2, EC 3.1.3.11) enzymes, which catalyse the synthesis and degradation of Fru 2,6-P2 respectively, showed any catalytic activity as fusion proteins. Secondly, to alter the levels of Fru 2,6-P2 in sugarcane, an important agricultural crop due to its ability to store large quantities of sucrose, by expressing the recombinant genes. Thirdly, to investigate whether sugar metabolism in photosynthetic- (leaves) and non-photosynthetic tissue (internodes) were subsequently influenced. Activity tests performed on the bacterially expressed glutathione-S-transferase (GST) fusion 6PF2K and FBPase2 enzymes showed that they were catalytically active. In addition antibodies were raised against the bacterially expressed proteins. Methods for extracting and measuring Fru 2,6-P2 from sugarcane tissues had to be optimised because it is known that the extraction efficiencies of Fru 2,6-P2 could vary significantly between different plant species and also within tissues from the same species. A chloroform/methanol extraction method was established that provided Fru 2,6-P2 recoveries of 93% and 85% from sugarcane leaves and internodes respectively. Diurnal changes in the levels of Fru 2,6-P2, sucrose and starch were measured and the results suggested a role for Fru 2,6-P2 in photosynthetic sucrose metabolism and in the partitioning of carbon between sucrose and starch in sugarcane leaves. Transgenic sugarcane plants expressing either a recombinant rat FBPase2 (ODe lines) or 6PF2K (OCe lines) were generated. The ODe lines contained decreased leaf Fru 2,6-P2 levels but increased internodal Fru 2,6-P2 levels compared to the control plants. Higher leaf sucrose and reducing sugars (glucose and fructose) were measured in the transgenic plants than the control plants. The transgenic lines contained decreased internodal sucrose and increased reducing sugars compared to the control plants. Opposite trends were observed for Fru 2,6-P2 and sucrose when leaves, internodes 3+4 or internodes 7+8 of the different plant lines were compared. In contrast, no consistent trends between Fru 2,6-P2 and sucrose were evident in the OCe transgenic lines. Dissertations -- Plant biotechnology Theses -- Plant biotechnology Sugarcane -- Biotechnology Sugarcane -- Genetic engineering Transgenic plants Fructose-2,6-bisphosphate
43	Comparative analysis of differential gene expression in the culms of sorghum Ndimande, Gordon Sandile 12 1900 (has links) Thesis (MSc (Genetics. Plant Biotechnology))--University of Stellenbosch, 2007. / Despite numerous attempts involving a variety of target genes, the identity of the key regulatory genes of sucrose metabolism in sugarcane is still illusive. To date, genomic research into sucrose accumulation in sugarcane has focused on genes that are expressed in association with stalk development/maturation, with the aim of identifying key regulatory steps in sucrose metabolism. The identification of possible controlling points, however, is complicated by the polyploid nature of sugarcane. Although these studies have yielded extensive annotated gene lists and correlative data, the identity of key regulatory genes remains elusive. A close relative of sugarcane, Sorghum bicolor, is diploid, has a small genome size and accumulates sucrose in the stalk parenchyma. The main aim of the work presented in this thesis was to use S. bicolor as a model to identify genes that are differentially expressed during sucrose accumulation in the stalk of low and high sucrose genotypes. In the first part of the study, a macroarray protocol for identification of differentially expressed genes during sorghum development was established. Firstly, the macroarray sensitivity of probe-target hybridisation was optimised with increasing amounts of target DNA i.e. 0.005-0.075 pmol. The hybridisation signal intensity increased as expected with increasing amounts of probe until the hybridisation signals reached maximum levels at 0.05 pmol. As a result, to ensure quantitative cDNA detection, probes were arrayed at 0.05 pmol when 1 μg target cDNA was used. Secondly, intra-array and inter-array membrane reproducibility was found to be high. In addition, the protocol was able to detect species of mRNA at the lowest detection limit tested (0.06%) and permits the detection of an eight-fold variation in transcript levels. The conclusion was therefore that the protocol was reproducible, robust and can reliably detect changes in mRNA levels. In the second part of the study, sugar accumulation levels in the immature and maturing internodal tissues of sorghum GH1 and SH2 genotypes were compared during the boot and softdough stages. Sugars (i.e. fructose, glucose and sucrose) accumulated differently in the immature and maturing internodes in both sorghum genotypes during the boot and softdough stages, with sucrose being the dominant sugar in both stages. Based on these differences in sugar accumulation patterns, immature and maturing internodal tissues of sorghum genotypes were compared for differentially expressed genes. A number of genes were found to be significantly differentially expressed during both stages. In order to validate the reliability of the macroarray analysis, fourteen genes were arbitrarily selected for semi-quantitative RT-PCR. Seven genes (50%) revealed a similar pattern of transcript expression, confirming the macroarray results. The other seven genes, however, showed a different expression trend compared with the macroarrays. In this study, ESTs from rice and sugarcane were used for probing sorghum. The probability of cross-hybridisation between the probes and various isoforms of the homologous sorghum sequences is thus high, potentially leading to the identification of false positives. In addition, variation in expression patterns could have been introduced by technical and biological variation. Lastly, to verify that changes in the levels of a transcript are also reflected in changes in enzyme activity, seven candidates were tested for enzyme activity. Only three i.e. soluble acid invertase (SAI), sucrose synthase (SuSy) and alcohol dehydrogenase (ADH), out of these seven genes showed enzyme activity levels reflective of the relative transcript expression. We concluded that changes in transcript levels may or may not immediately lead to similar changes in enzyme activity. In addition, enzyme activity may be controlled at transcriptional and at posttranscriptional levels. In conclusion, sugar accumulation in low (GH1) and high (SH2) sucrose sorghum genotypes is influenced by differences in gene expression. In addition, the power of macroarrays and confirmation with semi-quantitative RT-PCR for identification of differentially expressed genes in sorghum genotypes was demonstrated. Moreover, the transcript and enzyme activity patterns of SAI, SuSy and ADH genes showed expression patterns similar to those of sugarcane during sucrose accumulation. Therefore, using sorghum as a model promises to enhance and refine our understanding of sucrose accumulation in sugarcane. Sorghum -- Genetics Sucrose -- Metabolism Carbohydrates -- Metabolism Dissertations -- Plant biotechnology Theses -- Plant biotechnology
44	The influence of genetic manipulation of cytosolic aldolase (ALDc) on respiration in sugarcane Scheepers, Ilana 03 1900 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2005. / Previous studies indicated that cytosolic aldolase (ALDc) could be a rate limiting step in glycolysis and thus play a role in the regulation of carbon partitioning in sink tissues. In this study the role of ALDc in sugarcane was studied. Expression patterns of both ALDc transcript and protein were examined. In contrast to the leaves where ALDc expression is very low, the enzyme (transcript and protein) levels were high in all internodal tissues at all stages of maturity. In the leaves the plastidic isoform was prevalent as found previously in other C4 plants. The similar pattern of expression in transcript and protein abundance illustrate that there are no activators or inhibitors of ALDc activity present in sugarcane. The control on ALDc activity in sugarcane is therefore regulation of gene expression. To investigate the possibility that ALDc could be regulating carbon partitioning in sugarcane a series of transgenic sugarcane plants in the varieties NCo310 and N19 were produced. The presence and expression of the transgene and resultant effect on ALDc levels were determined for all the transgenic lines. The degree of ALDc reduction varied, with the biggest suppression of aldolase being 90% of that of the control plants. Alteration of ALDc activity caused no obvious phenotype. In both the varieties large decreases in ALDc tended to to lead to higher sucrose levels than that of the the control plants. 14C radiolabelling studies were conducted to investigate the effect of reduced ALDc levels on respiration and carbon partitioning. No differences in carbon metabolism could be found between the transgenic and control plants. Even in the line exhibiting a more than 90% decrease, the residual ALDc was sufficient for plants to grow normally under favourable glasshouse conditions. This would suggest that ALDc does not play a role in the regulation of flux through glycolysis, carbon partitioning and sucrose accumulation. Dissertations -- Plant biotechnology Theses -- Plant biotechnology Sugarcane -- Physiology Genetic regulation Glycolysis Cytosolic aldolase
45	Molecular characterisation of the commercially important Agathosma species Husselmann, Lizex H. H. 03 1900 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2006. / The development of a reliable and reproducible method for the genetic characterisation and identification of the commercially important Agathosma species was investigated. Previous research attempts aimed at developing a reliable and reproducible method of identifying these Agathosma species failed, mostly because these studies were based on phenotypic traits and these methods were therefore influenced by environmental factors. In this study amplified fragment length polymorphisms (AFLPs) were successfully used to quantify the genetic variation between the Agathosma species and as a result three distinct groups could be identified. The data obtained were elaborated with the Dice genetic similarity coefficient, and analysed using different clustering methods and Principle Coordinate Analysis (PCoA). Cluster analysis of the genotypes revealed an overall genetic similarity between the populations of between 0.85 and 0.99. The AFLP-based dendrogram divided the populations into three major groups: (1) the A. serratifolia and A. crenulata populations, (2) the putative hybrid, A. betulina X A crenulata populations, and (3) the A. betulina populations, confirming that this technique can be used to identify species. The question of hybridisation was also clarified by the results of the PCoA, confirming that the putative hybrid is not genetically intermediately spread between the A. crenulata and A. betulina populations, and that it is genetically very similar to A. betulina. The putative hybrid can therefore rather be viewed as a genetically distinct ecological variant of A. betulina. As the AFLP technique cannot be directly applied in large-scale, routine investigations due to its high cost and complicated technology, the development of polymerase chain reaction (PCR)-based molecular markers, able to accurately identify the species, was undertaken. Due to the superior quality of A. betulina oil, the development of such markers is especially critical for this species. Several species-specific AFLP markers were identified, converted to sequence characterised amplified regions (SCARs) and ultimately single nucleotide polymorphisms (SNPs) were characterised. The developed SCARs were unable to distinguish between the species. The conversion of AFLP fragments to SCARs is problematic due to multiple fragments being amplified with the AFLP fragment of interest. The diagnostic feature of the SNP-based markers was not sensitive enough, since this technique could not distinguish between the A. betulina and A. crenulata and/or the putative hybrid populations. The SNPs that were characterised were found not to be species-specific; they were only specific to the particular clone. Although a quick and robust marker specific for A. betulina has not yet been developed, this study sets the stage for future genetic studies on Agathosma species. Such a marker, or set of markers, would be an invaluable contribution to a blooming buchu oil industry. Dissertations -- Plant biotechnology Theses -- Plant biotechnology Medicinal plants -- South Africa Buchu -- Molecular genetics Agathosma -- Molecular genetics
46	An investigation into the effects of smoke-water and GR24 on the growth of nicotiana benthamiana seedlings Kotze, Liske Marinate 12 1900 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenboscg, 2010. / Includes bibliography. / Title page: Dept. of Genetics, Faculty of Natural Sciences. / ENGLISH ABSTRACT: Novel plant growth regulating substances (PGRs) are emerging as a useful tool to investigate important growth traits in plants. This study reports on growth promotion pathways leading to enhanced biomass accumulation in two PGRs sharing a common α, β-unsaturated furanone moiety. Growth promotion by GR24, a synthetic strigolactone, and an aqueous smoke solution (including the active compound, KAR1) in physiologically normal seedlings was characterized by enhanced biomass accumulation and higher seedling vigour. Root architecture (lateral root number and root length) and shoot size (fresh and dry shoot weight and leaf area) were also dramatically improved following GR24 and smoke/KAR1 treatment. Despite these apparent similarities, parallel transcript and phytohormone profiling identified only a limited number of overlapping entities. Four common up-regulated and nineteen down-regulated mRNA transcripts were identified; whilst amongst the phytohormones that were analyzed, only ABA and JA levels were commonly increased between the treatments. This suggests that, whilst the phenotypic end response(s) was similar, it was attained via distinct pathways. The limited number of co-expressed transcripts between these treatments, as well as repressed biomass accumulation when combining GR24 and aqueous smoke in a single treatment suggests, however, that a certain degree of cross-talk in either signal perception/transduction and/or biomass regulation could not be ruled out. In light of the structural similarity between the strigolactone and KAR1 molecules and the degree of redundancy between these treatments, it is possible that these two molecules might share a common receptor/perception pathway. Two silencing vectors were constructed, specifically aimed at silencing Nicotiana benthamiana genes MAX4 and MAX2 which are known to function in the strigolactone biosynthesis pathway and signal transduction pathway, respectively. Transgenes designed to express single- or double-stranded-self- complementary hairpin RNA have a post translational gene silencing effect. The pHELLSGATE2 plasmid a binary vector that incorporates GATEWAY cloning technology which makes use of λ-phage-based site specific recombination, rather than restriction endonucleases and ligation, was used to construct these gene silencing vectors. These constructs can in future be used to produce Nicotiana plants with impaired strigolactone production and perception abilities and may provide evidence as to whether the signaling cascade of KAR1 and strigolactone share a degree of crosstalk. / AFRIKAANSE OPSOMMING: Aanvraag na plantmateriaal is besig om toe te neem, hetsy vir gebruik as mens- en diervoeding of vir die produksie van biobrandstof. Om aan hierdie behoefte te voldoen, word verskeie pogings geloods wat fokus op die optimisering van plantproduksiestelsels. Om plantgroei te stimuleer/verbeter, is ’n ingewikkelde proses en is oor die algemeen moeilik om te begryp. Die produksie van plantbiomassa is nou gekoppel aan primêre metabolisme en enige verandering in hierdie biochemiese padweë kan lei tot ongewenste newe-effekte. Gevolglik word primêre metabolisme streng beheer deur reguleringsmeganismes. ’n Nuttige alternatief tot metaboliese wysiging is deur bio-aktiewe agente te karakteriseer op grond van die veranderinge aan plantgroei wat waargeneem word. Nuwe stowwe met biologiese aktiwiteite in plantontwikkeling word elke dag ontdek en speel ’n belangrike rol in die studie van plantgroei en -ontwikkeling. Hier word verslag gelewer van twee plantgroei-stimulerende stowwe wat albei lei tot die aktivering van verbeterde plantbiomassa-akkumulasie-padweë. Swaarder plantjies met ’n verhoogde oorlewingsvermoё is waargeneem in fisiologies normale saailinge wat met ’n sintetiese strigolaktoon (GR24) of met rookwater (met aktiewe bestanddeel, KAR1) behandel is. Behandeling met hierdie twee stowwe het gelei tot soortgelyke plantbiomassa-akkummulasie- vermoё. Hierdie twee stowwe (GR24 en KAR1) deel ’n ooreenstemmende molekulêre struktuur in die vorm van ’n α, β-onversadigde furanone-moieteit. Ten spyte van die groeiverbeteringsooreenkomste, gesien in saalinge behandel met GR24 en rook/KAR1, dui verskille in transkripsie- en hormoonprofiel op twee verskillende groeistimuleringspadweë. Saailinge wat gelyktydig behandel is met ’n kombinasie van die twee stowwe het egter ’n stremming in groei getoon in vergelyking met die kontroleplantjies. Dit is egter waargeneem dat daar wel ’n mate van oorvleueling in die aantal transkripte was tussen die drie behandelinge, wat daarop dui dat die groei-regulerende padweë nie in totale onafhanklikheid funksioneer nie, maar wel sekere stappe deel. Na aanleiding van die strukturele ooreenkomste tussen die strigolaktoon (GR24) en KAR1 molekules en die mate van molekulêre kommunikasieoorvleueling word gepostuleer dat hierdie twee molekules dalk aan dieselfde reseptormodule kan bind of stimuleer. Om hierdie rede is twee geendempingsvektors geskep wat daarop gemik is om twee gene, MAX2 en MAX4, in Nicotiana benthamiana uit te doof. Die MAX2 geenproduk is betrokke in die kommunikasie en waarneming van die strigolaktoon en die MAX4 geenproduk is betrokke by die vervaardiging van die hormoon. Oordraagbare geen-kostruksies wat daarop gemik is om enkel- en dubbelstring selfkomplimentêre haarnaald-RNS te vorm, besit die vermoë om getranskribeerde geenprodukte te vernietig. Die pHELLSGATE2 plasmied is ’n binêre vektor wat GATEWAY kloneringstegnologie gebruik, waar λ-faag gebaseerde setelspesifieke rekombinasie eerder as die tradisionele ligeringsreaksie gebruik word. Hierdie konstrukte kan gebruik word om transgeniese plantjies te skep waar die vermoë om strigolaktoon te maak of waar te neem, verloor of onderdruk is. Hierdie transgeniese plantjies kan gebruik word om te bepaal of die plantgroei-stimulerende vermoë van GR24 en rook/KAR1 wel dieselfde padweë gebruik. Strigolactone Smoke water Plant growth promotion Nicotiana benthamiana Dissertations -- Plant biotechnology Theses -- Plant biotechnology
47	Nitric oxide signaling and cysteine protease activity in the modulation of abiotic stress responses in soybean and maize Bilibana, Mawethu Pascoe 24 November 2010 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2010. / ABSTRACT: Nitric Oxide (NO) is an essential bioregulatory molecule in plant growth, development, and tolerance against biotic and abiotic stresses. In legume root nodules, abiotic stresses impose restraint on metabolic capacity of bacteria and cause oxidative damage to cellular macromolecules, leading to inhibition of nitrogenase activity. In this study, the primary aim was to determine the influence of NO signaling on cysteine protease activity in soybean (Glycine. max [L] Merr) root nodules. Intact plants were treated with a NO donor, diethylenetriamine/nitric oxide adjunct (DETA/NO), 8-(4-chlorophenylthio)-[CPT]- cGMP, sorbitol and sodium chloride (NaCl). The root nodule cysteine protease activity was measured using the chromogenic substrate N-benzoil-L-p-nitroanilide (L-BAPNA). The results demonstrated NO as acting both as a protection against programmed cell death (PCD) at low exogenously applied NO concentrations, or as inducing PCD through regulating the cysteine proteases activity in root nodules when NO is applied at elevated concentrations. In the root nodules, the activity of cysteine protease is regulated either through cyclic guanosine monophosphate (cGMP)-dependent during abiotic stress or cGMP-independent pathways during normal root nodule development. The purpose of this research was to highlight the importance of NO in cell signaling and cysteine protease activity in legume root nodules. We also focused on the effect of abiotic stress on two maize genotypes as well as the influence of abiotic stress on cysteine protease activity in the abiotic stress-sensitive maize genotype than the tolerant genotype. The study suggests that cysteine protease activity can be used as early screen to identify abiotic stress-sensitive/tolerant maize genotype upon exposure to abiotic stress. / AFRIKAANSE OPSOMMING: Geen Afrikaanse opsomming beskikbaar. / National Research Foundation Soybean Maize Cysteine protease Nitric oxide signaling Dissertations -- Plant biotechnology Theses -- Plant biotechnology Corn Abiotic stress
48	Manipulation of ascorbate biosynthesis in Solanum lycopersicum (cv Money maker) Cronje, Christelle 12 1900 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Vitamin C (ascorbate or AsA) is a secondary metabolite produced in many eukaryotes including yeasts, plants and animals. It plays essential roles as an anti-oxidant and enzyme cofactor, functions as an electron donor and -acceptor and is involved in various developmental processes. This study was initiated with the aim of increasing vitamin C production in tomato. Three genes, namely GDP-mannose pyrophosphorylase (GMPase) from Saccharomyces cerevisiae, arabinono-1,4-lactone oxidase (ALO) from Saccharomyces cerevisiae and myo-inositol oxygenase 2 (MIOX2) from Arabidopsis thaliana were ectopically expressed in the tomato cultivar Money Maker. GMPase converts D-mannose-6-P to GDP-D-mannose. This reaction forms part of the well characterized, “Smirnoff-Wheeler” pathway. ALO catalyzes the terminal step in erythroascorbate synthesis in yeast. In situ it also metabolizes the plant and animal substrates for ascorbate manufacture. Myo-inositol (MI) is converted into D-glucuronate by the activity of MIOX. D-Glucuronate is a precursor to L-guluno-1,4-lactone synthesis which is the precursor to AsA in animals and thought to be present in plants. The genes were independently introduced with the aid of Agrobacterium tumefaciens mediated transformation and expressed under the control of the CaMV 35S promoter. Plants with increased GMPase activity consistently showed increased L-ascorbate levels in leaves and fruit of between 20- and 70% compared to the wild-type. Plants transcribing the ALO gene exhibited small increases in L-ascorbate in green fruit (p < 0.1). Leaf tissue from MIOX plants displayed significant activity increases (p < 0.05), and substantial decreases in MI. In green fruit two MIOX lines had increases in activity, cell wall uronic acids and AsA levels. Marginal increases in L-ascorbate would not warrant industrial application, but follow-up research with over-expression of other enzymes of the “Smirnoff-Wheeler” pathway should be explored. / AFRIKAANSE OPSOMMING: Vitamien C (askorbiensuur of AsA) is ŉ sekondêre metaboliet wat in baie eukariote, insluitend gis, plante en diere geproduseer word. Dit speel ŉ noodsaaklike rol as ŉ anti-oksidant en ensiem kofaktor, funktioneer as ŉ elekronskenker en aanvaarder en is betrokke in verskillende ontwikkelings prosesse. Hierdie studie was geїnisieer met die doel om vitamien C produksie in tamatie te vermeerder. Drie gene, naamlik GDP-mannose pirofosforilase (GMPase) van Saccharomyces cerevisiae, arabinono-1,4-laktoon oksidase (ALO) van Saccharomyces cerevisiae en mio-inositol oksigenase 2 (MIOX2) van Arabidopsis thaliana was ektopies uitgedruk in the tamatie kultivar, Money Maker. GMPase skakel D-mannose-6-P om na GDP-D-mannose. Hierdie reaksie is deel van die goed gekenmerkde “Smirnoff Wheeler” baan. ALO kataliseer the terminale stap in eritroaskorbiensuur sintese in gis. In situ metaboliseer dit ook die plant en dier substrate om askorbiensuur te vervaardig. Mio-inositol (MI) is omgeskakel na D-glukuronsuur deur die aktiwiteit van MIOX. D-glukuronsuur is ŉ voorloper in L-guluno-1,4-laktoon sintese wat dan ŉ voorloper is van AsA in diere en word ook verdink om in plante teenwoordig te wees. Die gene was onafhanklik ingestel met die hulp van Agrobakterium tumefaciens gemedїeerde transformasie en uitgedruk onder die beheer van die CaMV 35S promotor. Plante met verhoogde GMPase aktiwiteit het in blare en vrugte konsekwente toename in L-askorbiensuur vlakke met tussen 20 – 70% gewys in vergelyking met wilde-tipe. Plante wat ALO getranskribeer het, het klein stygings in L-askorbiensuur in groen vrugte gewys (p < 0.1). Blaarweefsel van MIOX plante wat verhoogde aktiwiteit vertoon het, (p < 0.05), het ook aansienlike dalings in MI gehad. In groen vrugte van MIOX het twee lyne verhoogte aktiwiteit, selwand uronsuur en AsA vlakke gehad. Klein toename in L-askorbiensuur is nie gepas vir industriële toepassing nie, maar opvolg navorsing moet ondersoek word met die oor-uitdrukking van ander “Smirnoff-Wheeler” baan ensieme. Ascorbate biosynthesis Tomatoes -- Biotechnology Vitamin C Dissertations -- Plant biotechnology Theses -- Plant biotechnology
49	Identification of the genes encoding enzymes involved in the synthesis of the biopolymer paramylon from Euglena gracilis Mackay, Stephen 12 1900 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2010. / Includes bibliography. / Title page: Dept. of Genetics, Faculty of Science / ENGLISH ABSTRACT: Recent advances in medical pharmacology have identified the immune-potentiating effects of β-1,3-glucans on mammalian immune systems. Extensive research has identified and described the mechanisms of action and receptor binding specificity of different β-1,3-glucans as well as their structural and functional relationships. Molecular mass, solubility, structural order, degree of branching as well as chemical modification all determine the effectiveness of the β-1,3-glucan immune-modulating activities, which typically include; macrophage activation, antibody adjuvant activities, reduction of LDL-cholesterol, leukocyte mitogenic activities, cytokine and chemokine production as well as antiviral and antitumor activities. Currently β-1,3-glucans have been sold commercially under the name β-glucan, mostly in the form of Betafectin, a genetically modified yeast derived β-1,3-glucan. Recent studies of different β-1,3-glucans have identified the pharmacological activities of paramylon, a Euglena derived β-1,3-glucan. Although paramylon has relatively low immune-stimulating activities, chemical modification of the paramylon granule increased immune-potentiation with specific antimicrobial and anti-HIV activities. Due to these specific immune-potentiating activities, paramylon is novel in terms of both structure as well as functional activity. In terms of biotechnological application, paramylon is greatly favoured as it is synthesized as an insoluble membrane bound granule in the cytosol of Euglena where most plant and fungal β-1,3-glucan synthases are cell membrane bound highly regulated multifunctional complexes, synthesizing β-1,3-glucan as cell wall components. Due to the novel granular nature of paramylon, expression in other systems with genetic modification could potentially further increase immuno-potentiating activities. In this study, different approaches were attempted in order to identify the genes involved in paramylon synthesis including; constructing and screening a Euglena gracilis cDNA library, sequence analysis of the purified proteins as well as transcription analysis of the sequenced transcriptome and genome of E. gracilis. Putative candidates that encode subunits of the paramylon synthase complex have been identified. / AFRIKAANSE OPSOMMING: Onlangse vordering in mediese farmakologie het die immuun-stimulerende effek van β-1,3-glukane op die soogdier immuunsisteem geïdentifiseer. Intensiewe navorsing het die meganisme van die werking en reseptor bindingspesifisiteit van verskillende β-1,3-glukane, asook hulle struktuur en funksionele verhoudings, geïdentifiseer. Die molekulêre massa, oplosbaarheid, strukturele orientasie, mate van vertakking asook chemiese modifikasies bepaal almal die effektiwiteit van die β-1,3-glukaan immuun-modulerende aktiwiteite. Tipiese immuno-moduleringsaktiwiteite sluit makrofaag aktivering, teenliggaampie adjuvant aktiwiteite, verlaging van LDL-cholesterol, leukosiet mitogeniese aktiwiteite, sitokien en chemokien produksie asook anti-virale en antitumor aktiwiteite in. Huidiglik word β-1,3-glukane onder die naam β-glukaan verkoop meestal in die vorm van Betafectin, ‘n geneties gemodifiseerde gis wat van β-1,3-glukaan afkomstig is. Onlangse studies van verskillende β-1,3-glukane het die farmakologiese aktiwiteit van paramylon, ‘n Euglena afkomstige β-1,3-glukaan geïdentifiseer. Alhoewel paramylon relatiewe lae immuun-stimulerende aktiweite toon, verhoog chemiese modifikasies van die paramylon granules immuun-stimulering, spesifiek die anti-mikrobiese en anti-MIV aktiwiteite. Weens hierdie spesifieke immuun-stimulerende aktiweite, word paramylon as nuut beskou veral in terme van beide struktuur asook funksionele aktiwiteit. In terme van biotegnologiese toepassing, verkry paramylon voorkeur aangesien dit as ‘n onoplosbare membraangebonde granule in die sitosol van Euglena gesintetiseer word terwyl meeste plant en fungus β-1,3-glukaan sintases hoogs gereguleerde multifunksionele selmembraan gebonde komplekse is wat β-1,3-glukaan asook ander selwand komponente sintetiseer. Weens die unieke granulêre natuur van paramylon, sal uitdrukking in ander sisteme ‘n moontlike industrie skep waar deur die transgeniese uitdrukking van granulêre paramylon verdere verbetering van die immuun-stimulerings aktiwiteite kan lei. In hierdie studie is verskillende benaderings aangewend om die gene wat by paramylon sintese betrokke is te identifiseer, dit sluit in die konstruksie en sifting van ‘n E. gracilis cDNS biblioteek, aminosuur volgorde analise van gesuiwerde proteiene asook die transkripsionele analise van die volgorde van die transkriptoom en genoom van E. gracilis. Moontelike kandidate wat vir die subeenhede van die paramylon syntase kompleks kodeer is geïdentifiseer. Euglena gracilis Paramylon Transcriptomics Proteomics Dissertations -- Plant biotechnology Theses -- Plant biotechnology cDNA synthesis
50	Investigation of exopolysaccharide producing bacteria isolated Willard, Kyle 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: The deterioration of harvested sugarcane as a result of bacterial growth causes major losses of sucrose and a build-up of exopolysaccharides (EPS). Polysaccharides present during production increase the massecuite viscosity, which negatively influences evaporation and crystallisation. In this study 38 culturable EPSproducing bacteria were isolated from milled sugarcane. Analysis of the EPS showed the ubiquitous presence of glucose, however, 14 polysaccharides also contained mannose, fructose or galactose. In vitro treatment using Chaetomium erraticum dextranase to evaluate is effectiveness indicated that 37 of the EPS were hydrolysed to some extent. There were 21 polysaccharides that were only partially digested. The capacity of the isolates to produce EPS on different sugars indicated a correlation between sucrose and polysaccharide formation in 37 isolates. The results indicate there are more species involved in EPS production than previously thought as well as the presence of non-dextran polysaccharides. / AFRIKAANSE OPSOMMING: Bakteriële groei veroorsaak ‘n afname in gehalte, sukrose en ‘n verhoging in die hoeveelheid van eksternepolisakkeriede (EPS). Die verhoogde konsentrasie van polysakkariede gedurende die verwerkingsprosses veroorsaak ‘n verhoging in “massecuite” viskositeit. Hierdie verskynsel het ‘n nadelige uitwerking op die verdamping en kristalvorming van die produk. In gemaalde skuikerriet was 38 groeibare EPS-produserende bakterieë geisoleer. Die geanaliseerde EPS van hierdie bogenoemde bakterieë was daar in almal glukose teenwoordig. In 14 van hulle was mannose, fruktose en galaktose ook gevind. Die in vitro effektiwieteit van Chaetomium erraticum dekstranase op die EPS het gewys dat 37 het tot ‘n mate gehidroliseer maar 21 was net gedeeltelik verteer. As gevolg van die bo-genoemde resultate was daar gevind dat sukrose was ‘n noodsaaklike subtraat vir EPS produksie in die geisoleerde bakterieë. In hierdie studie was bevestig ‘n groter verskiedenheid EPS-produserende bakterieë gevind was en dat hulle assosiasie aan sukierriet prossering meer kompleks is as wat vooreen gedink was. Sugarcane -- Biotechnology Crop improvement Sugarcane -- Genetic engineering Theses -- Plant biotechnology Dissertations -- Plant biotechnology

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