Dissertations / Theses on the topic 'Plant biotechnology'

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.

Thesis (MSc (Genetics. Plant Biotechnology)) --University of Stellenbosch, 2009.
ENGLISH ABSTRACT: This project examined the role of proteins in starch phosphate metabolism. The first part was aimed at the functional characterization of the SEX4, LSF1 and LSF2 genes in both plants and bacteria. Constructs were produced to allow for expression of the three proteins in E. coli with the SEX4 and LSF2 proteins being successfully purified and used to produce antibodies. Immunoblot analysis indicated that the antibodies recognised the repective proteins in extracts, but it was not clear if they actually recognised the proteins or the GST tags they were fused to. Virus induced gene silencing constructs were also produced to allow repression of these three genes in Nicotiana benthamiana. This resulted in a starch excess phenotype being observed in the leaves of silenced plants which is consistent with the known or presumed roles for the genes. The antibodies produced were not specific enough to confirm that the respective protein were actually repressed, but it is likely that this was the case as plants infiltrated at the same time with a VIGS vector designed to repress phytoene desaturase exhibited a chlorophyll bleaching phenotype. These data confirm that SEX4 and LSF1 probable play the same role in N. benthamiana as in Arabidopsis, and provide evidence that LSF2 is also necessary for starch degradation. It was also attempted to characterise these proteins with respect to their substrate utilization by setting up a glyco-array experiment. Various potato starches from genetically modified plants were subjected to hydrolytic attack by starch degrading enzymes and fractionated by anion exchange chromatography to produce a multitude of glucans. These will be spotted onto glass filters and probed with the purified proteins to see if they bind to specific starch breakdown products preferentially. iv The project also involved investigating the effect the SEX4 protein has on E. coli glycogen contents. SEX4 was expressed in wild type and glgX mutant E. coli strains as it has been shown that this stops glycogen accumulation in the wild type, but not the glgX mutant. The cells were grown in liquid culture and glycogen contents measured. In liquid cultures SEX4 had no effect on glycogen contents in the wild type, possible because of problems with plasmid stability in the strain used. This final part of the project investigated the effect that a gwd mutation has on carbohydrate metabolism in leaves and fruits of the Micro-tom tomato cultivar. Starch and soluble sugar contents were measured in leaves and ripening fruits. A starch excess phenotype was found in the leaves, but no change in starch contents was determined in either the placenta or pericarp of the fruit. Soluble sugar contents were reduced in the fruit tissues, although the reason for this in unclear.
AFRIKAANSE OPSOMMING: Hierdie projek het die rol van proteine in stysel-fosfaat metabolisme ondersoek. Die eerste deel handel oor die funksionele karaktiseering van die SEX4, LSF1 en LSF2 gene in beide plante en bakteriee. Vektore is gekonstrueer om die uitdrukking van die drie proteine in E.coli toe te laat terwyl die SEX4 en LSF2 proteine suksesvol gesuiwer is vir die gebruik vir teenliggaam produksie. Immunoklad analises het getoon dat die teenligame die spesifieke proteine in die ekstrak herken het, maar dit was nie duidelik of dit die onderskeie proteine was of die GST-verklikker waaraan die onderskeie proteine verbind was nie. Virus geindiseerde geen onderdrukking konstrukte is ook geproduseer om toe te laat vir die onderdrukking van hierdie drie gene in Nicotiana benthamiana. Dit het ‘n stysel oorskot fenotipe tot gevolg gehad in die blare van onderdrukte plante wat konstant is met die bekende of voorgestelde rolle van die gene. Die teenliggame wat geproduseer is was nie spesifiek genoeg om te bewys dat die onderskeie proteine wel onderdrukis nie. Dit kon wel die geval gewees het want plante geinfiltreer op dieselfde tyd met ‘n VIGS vektor wat ontwerp is om phytoene desaturase te onderdruk het ‘n chlorofil bleikings fenotipe getoon. Hierdie data bevestig dus dat SEX4 en LSF1 moontlik dieselfde rol speel in N. benthamiana as in Arabidopsis, en toon bewyse dat LSF2 ook nodig is vir stysel afbreek. Karakterisasie van die onderskeie proteine met respek tot hul substraat gebruik is ondersoek deur ‘n gliko-array eksperiment. Verskillende aartappel stysels van genetiese gemodifiseerde plante was geonderwerp aan hydrolitiese afbreek deur stysel afbrekende ensieme en geskei deur anioon uitruilings chromotografie om veelvuldige glukans te vi vervaardig. Dit is geplaas op glas filters en is ondersoek saam met die gesuiwerde proteine om te sien of dit mag bind aan spesifieke stysel afbreek produkte. ‘n Verdere ondersoek is onderneem na die effek van die SEX4 protein op E. coli glikogeen inhoud. SEX4 was uitgedruk in die E .coli wildetipe en glgX mutant omdat dit reeds bewys is dat SEX4 glikogeen ophoping veroorsaak in die wildetipe maar nie in die glgX mutant. Die selle is opgegroei in vloeibare media en glikogeen inhoud is gemeet. In vloeibare media het SEX4 geen effek op die wildetipe se glikogeen inhoud nie wat moontlik kan wees as gevolg van plasmied stabiliteit in die E. coli ras wat gebruik is. Die finale deel van die projek was om die effek van ‘n gwd mutasie op koolhidraat metabolisme in blare en vrugte van die Micro-tom tamatie kultivar te ondersoek. Stysel en oplosbare suikers is gemeet in blare en rypwordende vrugte. ‘n Oortollige stysel fenotipe is in die blare gevind maar geen verandering in stysel inhoud is waargeneem in die plasenta of perikarp van die vrug nie. Oplosbare suiker inhoud het afgeneem in die vrugweefsel dog is die rede hiervoor nie te verstane.

Dissertation (PhD)--University of Stellenbosch, 2004.
ENGLISH ABSTRACT: This study had three main goals: 1. to investigate the occurrence on the protein level of sucrose synthase (SuSy) isoforms in sugarcane sink tissue, 2. to determine the kinetic properties of these isoforms, 3. to establish the tissue localisation of SuSy in the sugarcane culm The results are summarised below: Three SuSy isoforms were obtained from leaf roll tissue. The SuSyA and SuSyB isoforms differed in terms of charge characteristics, with SuSyA not binding to an anion exchange column that bound SuSyB and SuSyC under the same conditions. Both SuSyB and SuSyC isoforms were eluted at 180 mM KCl. The SuSyA and SuSyB isoforms were present during autumn, but during winter only the SuSyC isoform could be isolated. Even though they eluted at the same salt concentration, SuSyB and SuSyC were different isoforms, because they had different kinetic parameters, as well as different immunological properties. SuSyB and SuSyC could not have been mixtures of the same isoforms, since a polyclonal antiserum against SuSyB, which inactivates native SuSyB, did not inactivate SuSyC. All three isoforms had significantly different kinetic parameters, with the SuSyA isoform also having a much lower sucrose breakdown/synthesis ratio than the other two isoforms. Therefore, at least three SuSy isoforms occur in sugarcane leaf roll tissue on the protein level. The SuSyC isoform was subsequently kinetically characterised in detail. Data showed that the enzyme employs an ordered ternary complex mechanism, with UDP binding first and UDP-glucose dissociating last. These experimentally obtained kinetic parameters were then used to extend a kinetic model of sucrose accumulation. Data show that when the experimentally determined SuSy kineticparameters were entered into the model, a 40 % increase in sucrose concentration and 7 times reduction in fructose concentration resulted. These data illustrate the pronounced physiological effects that may result from the presence of different SuSy isoforms. SuSy protein localisation data, obtained by an immunohistochemical approach, indicated that SuSy protein was present in both storage parenchyma and vascular tissue of young, intermediate, and mature internodes. SuSy enzyme activity in different parts of the internodes was similar, except for internode 3, which had much higher activity in the bottom part of the internode, possibly because growth is faster here, hence a higher demand for sucrose cleavage exists here.
AFRIKAANSE OPSOMMING: Hierdie studie het ten doel gehad: 1. om die teenwoordigheid van sukrose sintase (SuSy) isovorme in suikkerriet swelgweefsel te ondersoek 2. om die kinetiese eienskappe van hierdie isovorme te ondersoek 3. om die weefsellokalisering van SuSy in die suikerrietstingel te bepaal Die resultate word hieronder opgesom: Drie SuSy isovorme is gevind in blaarrol weefsel. Die SuSyA en SuSyB isovorme het verskil in terme van ladingseienskappe, met SuSyA wat nie aan ‘n anioonuitruilkolom gebind het nie waaraan SuSyB en SuSyC wel onder dieselfde kondisies gebind het. Beide SuSyB en SuSyC isovorme is geëlueer van die kolom teen 180 mM KCl. Die SuSyA en SuSyB isovorme was teenwoordig gedurende herfs, maar in die winter was slegs SuSyC teenwoordig. Ten spyte van die feit dat SuSyB en SuSyC teen dieselfde soutkonsentrasie geëlueer is, het hulle verskillende isovorme verteenwoordig, aangesien hulle kinetiese en immunologiese eienskappe verskil het. SuSyB en SuSyC kon nie mengsels van dieselfde isovorme gewees het nie, want ‘n poliklonale antiserum teen SuSyB, wat SuSyB geïnaktiveer het, het nie SuSyC geïnaktiveer nie. Al drie isovorme het betekenisvol verskil wat kinetiese eienskappe betref, met die SuSyA isovorm wat ook ‘n baie laer sukrose afbraak/sintese verhouding gehad het as die ander twee isovorme. Daar is dus ten minste drie SuSy isovorme teenwoordig op die proteïen vlak in suikerriet blaarrol weefsel. Die in-detail kinetiese analise van die SuSyC isovorm het getoon dat die ensiem ‘n geordende drietallige kompleks meganisme het, met UDP wat eerste bind en UDP-glukose wat laaste dissosieer. Die eksperimenteel bepaalde kinetiese parameters is toe gebruik om ‘n kinetiese model van sukrose akkumulering uit tebrei. Data het getoon dat wanneer die generiese SuSy kinetiese parameters in die oorspronklike model vervang word met die eksperimenteel bepaalde waardes, die berekende sukrose konsentrasie met ongeveer 40 % toeneem, terwyl die fruktose konsentrasie ongeveer 7 keer afneem. Hierdie resultaat toon die groot fisiologiese effek wat die uitdrukking van verskillende SuSy isovorme op suikermetabolisme kan hê. Die SuSy proteïen lokaliseringsdata, wat met ‘n immunohistochemiese benadering verkry is, het aangedui dat SuSy in beide bergingsparenchiemselle sowel as vaatweefsel teenwoordig is in jong, intermediêre en volwasse internodes. SuSy ensiemaktiwiteit in verskillende dele van die internodes was soortgelyk, behalwe in internode 3, wat baie hoër aktiwiteit gehad het in die onderste deel van die internode as bo, moontlik weens vinniger groei in hierdie deel van die internode, wat afhanklik is van afbraakprodukte van sukrose.

Thesis (MSc)--Stellenbosch University, 2013.
ENGLISH ABSTRACT: See item for full abstract
AFRIKAANS OPSOMMING: Sien item vir volteks
IPB, National Research Foundation (NRF) and SASRI for funding

Thesis (PhD (Plant Biotechnology))--University of Stellenbosch, 2010.
ENGLISH ABSTRACT: Virus Induced Gene Silencing (VIGS) was optimized to allow for the study of starch metabolism. The plastidial inorganic pyrophosphatase gene, for which a mutant has never been identified, was studied using VIGS and it was found to have a broad role in this subcellular compartment. The accumulation of inorganic pyrophosphate limited the production of starch, carotenoids, chlorophyll, and increased the plants susceptibility to drought stress. These effects highlight the importance of this enzyme in maintaining a low intraplastidial concentration of PPi providing an environment which facilitates these anabolic processes. Several genes involved in starch synthesis and degradation were also targeted with the aim of establishing a system of multiple gene silencing for the study of metabolic pathways. One, two and three genes were successfully silenced using this system which was validated based on previously published data. Interestingly, simultaneous silencing of the two isoforms of disproportionating enzyme led to a novel phenotype as a large reduction in starch instead of the expected increase was observed.
No Afrikaans abstract available

Thesis (PhD (Genetics. Plant Biotechnology))--University of Stellenbosch, 2006.
The main aim of the work presented in this thesis was to elucidate the apparent role of pyrophosphate fructose 6-phosphate 1-phosphotransferase (PFP) in sucrose accumulation in sugarcane. PFP activity in sugarcane internodal tissue is inversely correlated to the sucrose content and positively to the water-insoluble component across varieties which differ in their capacities to accumulate sucrose. This apparent well defined and important role of PFP seems to stand in contrast to the ambiguity regarding PFP’s role in the general literature as well as the results of various transgenic studies where neither the downregulation nor the over-expression of PFP activity had a major influence on the phenotype of transgenic potato and tobacco plants. Based on this it was therefore thought that either the kinetic properties of sugarcane PFP is significantly different than that of other plant PFPs or that PFP’s role in sucrose accumulating tissues is different from that in starch accumulating tissues. In the first part of the study sugarcane PFP was therefore purified and its molecular and kinetic properties were determined. It consisted of two subunits which aggregated in dimeric, tetrameric and octameric forms depending on the presence of Fru 2,6-P2. Both the glycolytic and gluconeogenic reactions had broad pH optima and the kinetic parameters for all the substrates were comparable to that of other plant PFPs. The conclusion was therefore that sugarcane PFP’s molecular and kinetic characteristics do not differ significantly from that of other plant PFPs. The only direct way to confirm if PFP is involved in sucrose accumulation in sugarcane is to alter its levels in the same genetic background through genetic engineering. This was therefore the second focus of this study. PFP activity was successfully down-regulated in sugarcane. The transgenic plants showed no visible phenotype under greenhouse and field conditions and sucrose concentrations in their immature internodes were significantly increased. PFP activity was inversely correlated with sucrose content in the immature internodes of the transgenic lines. Both the immature and mature internodes of the transgenic plants had significantly higher fibre contents. This study suggests that PFP plays a significant role in glycolytic carbon flux in immature, metabolically active sugarcane internodal tissues. The data presented here confirm that PFP can indeed have an influence on the rate of glycolysis and carbon partitioning in these tissues. It also implies that there are no differences between the functions of PFP in starch and sucrose storing tissues and it supports the hypothesis that PFP provides additional glycolytic capacity to PFK at times of high metabolic flux in biosynthetically active tissue. This work will serve as a basis to refine future genetic manipulation strategies and could make a valuable contribution to the productivity of South African sugarcane varieties.

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.

Thesis (MSc)--University of Stellenbosch, 2004.
ENGLISH ABSTRACT: The process of sugar accumulation and transport in sugarcane is still poorly understood. Understanding the processes involved in sucrose transport are important, since membrane transport might be important control points in this pathway. The goals of this project were to unravel the mechanisms of sugar transport in sugarcane culm tissue by using 14C-sugar analysis as well as molecular techniques to identify possible sucrose transporters. Developing (internode 2 and 4) and maturing (internode 8 and 15) culm tissue of sugarcane (Saccharum hybrid) commercial variety N19 was used for all tissue disc experiments. Tissue discs from internodes of different developmental stages were cut from field grown sugarcane plants (cv. N19) and the uptake of 14C-labelled glucose, fructose and sucrose measured. The uptake rates were measured at varying pH, temperature and concentrations of sugars. Hexoses were found to be the major sugar taken up and sucrose was only important when little hexose was available, as was found in the mature ripe internodes. Sucrose uptake differs between tissues and our study showed that sucrose was taken up rapidly at pH 5, similar to the pH optimum of most sucrose transporters Inhibition studies with TRIS (2-amino-2- (hydroxymethyl)-1,3-propanediol) and PCMBS (p-chloromercuribenzenesulphonic acid) indicated that more than one sucrose transporter activity may be present in the sugarcane system at different sucrose concentrations. To date work on sugarcane sucrose transporter expression on DNA and RNA level has been limited. Only recently a sucrose transporter from Saccharum hybrid sugarcane stem cDNA libray, ShSUT1 (Saccharum hybrid Sucrose Transporter ) was isolated and functionally characterized in the yeast strain SEY 6210 (Rae et al., 2004). In an effort to understand sucrose transport in sugarcane culm tissue, a partial sucrose transporter cDNA, ScSUT1(p) from Saccharum hybrid sugarcane a bud cDNA library was isolated, and cloned from a bud cDNA library. The clone was designated ScSUT(p) as a partial Sugarcane Sucrose Transporter. The ScSUT1(p) sequence showed 94% identity to ShSUT1 on nucleotide level over 1258 nucleotides and had an estimated open reading frame of 419 amino acids. Southern blot analysis indicated that the transporter had a low copy number and the ScSUT1(p) transcript expression was constitutive in sucrose accumulating and sucrose storing stem tissue, but was less abundant in immature tissue such as internodes 2 and 3 and in lateral buds. It was concluded that the primary function of ScSUT1(p), was not phloem unloading but that the transporter may be involved in phloem loading, as it is abundant in mature source leaves. ShSUT1 cDNA was obtained from Dr C Grof and the functionality of ShSUT1 as a sucrose transporter in Xenopus leavis oocytes was confirmed. However, electrophysiological measurements on the oocytes demonstrated no measurable current associated with sucrose challenge to the oocytes indicating that the transporter activity was either very low or possibly non-electrogenic. Further investigation is required to characterise the specific mechanism and kinetic properties of this transporter.
AFRIKAANSE OPSOMMING: Die proses van suikerakkumulering en -vervoer in suikerriet word steeds baie vaag verstaan. ‘n Deeglike begrip van die prosessewat betrokke is in die vervoer van sukrose is baie belangrik omdat transmembraan vervoer moontlik een van die belangrike beheerpunte in metabolisme mag wees. Die doelwitte van die studie was om ‘n beter begrip te bekom van die meganisme wat betrokke is by die vervoer en berging van sukrose in suikerriet. Die projek is in ‘n fisiologiese en ‘n molekulêre afdeling verdeel. In die fisiologiese afdeling is stingelweefsel van ‘n Saccharum hybried (variëteit N19) van verskillende stadiums van ontwikkeling (internodes 2-4, internode 8 en internode 15) gebruik. Opname van radioaktiewe (14C) sukrose, glukose en fruktose is as analise metode gebruik vir die suikeropname eksperimente. Die invloed van pH, suiker konsentrasie en inhibitore soos PCMBS (pchloromercuriphenylsulfonic acid) en TRIS (2-amino-2-(hydroxymethyl)-1,3-propanediol) op die tempo van suikeropname is ondersoek. Die molekulêre deel fokus hoofsaaklik op die identifisering, isolering en karakterisering van nuwe sukrose vervoerproteine in suikerriet, met behulp van PCR en heteroloë uitdrukking in Xenopus laevis oösiete. Die 14C - opname eksperimente het tot die volgende gevolgtrekkings gelei: Heksoses speel die belangrikste rol in die vervoer van suiker in die riet as daar min of geen sukrose teenwoordig is nie. Sodra daar sukrose in groot mate teenwoordig is soos in die geval van ontwikkelde, ryp internodes, is die rol van sukrose egter belangriker. Sukrose is die maklikste opgeneem by pH 5, wat naby die pH optimum van die meeste sukrose vervoerproteïene is. TRIS en PCMBS het beide ‘n inhiberende effek op sukrose opname gehad, maar die invloed was groter by die laer sukrose konsentrasies. Tot onlangs was daar baie min inligting oor sukrose vervoer in suikerriet op DNA en RNA vlak. Die eerste sukrose vervoerprotein uit suikerriet, ShSUT1 (Saccharum Hibried Sukrose Transporter) is eers onlangs uit ‘n stingel - cDNA biblioteek geïsoleer (Rae et al., 2004) en die funksionering daarvan is in ‘n gisras (SEY6210) getoets. In my pogings om sukrose vervoer te verstaan is ‘n gedeeltelike cDNA, naamlik ScSUT(p) (partial Sugarcane Sucrose Transporter) van 1258 nukleotiede, uit cDNA afkomstig van suikerrietbotsel geïsoleer. Die nukleotiedvolgorde stem 94% ooreen met ShSUT1 en kodeer vir ‘n moontlike oopleesraam van 419 aminosure. Southern analises het aangedui dat ScSUT(p) ‘n lae kopie getal het, in ooreenstemming met wat vir ander sukrose vervoerproteïene gevind is. Northern analises het getoon dat die uitdrukking van ScSUT(p) konstitutatief is in sukrose akkumulerende sowel as sukrose bergingsweefsel. Jong weefsel (internode 2 en 3) het baie lae uitdrukking getoon, met die hoogste uitdrukking in blaarweefsel. Uit die resultate is afgelei dat ScSUT(p) ‘n rol in floeëmlading en -ontlading mag speel. Xenopus laevis oösiete, is as ‘n heteroloë uitdrukking sisteem gebruik om te bevestig dat ShSUT1 as ‘n sukrose vervoerproteïen funksioneer. Elektrofisiologie het nie daarin geslaag om ShSUT1 se spesifieke werkingsmeganisme te identifiseer nie. Aanduidings is egter gevind dat ShSUT1 moontlik nie as ‘n H+/sukrose simportsisteem werk nie, maar by gefasilliteerde vervoer van sukrose betrokke mag wees. Verdere navorsing is noodsaaklik om die meganisme van ShSUT1 se werking te verstaan.

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.

Thesisa (MSc (Genetics. Plant Biotechnology))--University of Stellenbosch, 2005.
The study had two main objectives: 1) to investigate specific enzyme activity profiles at various developmental stages and to determine possible implications for sucrose metabolism, 2) to incorporate enzyme activity data of different internodes to obtain a detailed model of every stage in the tissue maturation process. The most significant findings of the regulation of sucrose accumulation in this study are centred on three main point controls in sucrose metabolism pathway. Firstly, the maturation of sugarcane internodes coincided with an increase of SPS in most genotypes, and this underlines the key role of this enzyme in sucrose accumulation. Secondly, SuSy activity (cleavage reaction) correlated negatively with sucrose concentration and hence with tissue maturation process, in most of the varieties. This finding indicates that SuSy could well be implicated in sucrose metabolism. Thirdly, in vitro PFP activity was found to be negatively correlated to sucrose content in sugarcane varieties differing in amount of sucrose.

Thesis (MSc (Genetics. Plant Biotechnology)--University of Stellenbosch, 2009.
ENGLISH ABSTRACT: Glycogen was isolated from E. coli and analysed for the amount of phosphate present within it. It was confirmed that a significant proportion of the glucose residues were phosphorylated at the C6 position. This glycogen phosphate was found also in both glgb- (glycogen branching enzyme) and glgp- (glycogen phosphorylase enzyme) mutants, demonstrating that a mechanism for phosphate incorporation that does not involve GlgP alone, and which is capable of incorporating phosphate into linear glucans could exist. The degree of phosphorylation depended on the amount of phosphate present in the media, which less being incorporated in media where phosphate was reduced. Screening for glycogen phosphorylating genes using a E. coli genomic library in a functional expression system identified the malP gene as a possible candidate for incorporation of the phosphate at the C6 position. There was no difference, however, between the glycogen phosphate content of the mutant and wild type. Efforts were made to construct a malp-/glgp- double mutant, but these were unsuccessful. In addition the influence of plants and human proteins on yeast glycogen metabolism was also investigated. These proteins have been demonstrated to have an effect on starch or glycogen in humans, plant and E. coli, but the data from this study indicated that this was not the case in yeast.
AFRIKAANSE OPSOMMING: Glikogeen, wat geisoleer was uit E.coli was geanaliseer vir fosfaat inhoud daarin. Daar was gevind dat `n beduidende proporsie van die glukose residue gefosforileerd was op die C6 posisie. Hierdie gefosforileerde glikogeen was ook gevind in glg- (glikogeen vertakkingsensieme) en glgp- (glikogeen fosforileringsensieme) mutante wat daarop dui dat `n meganisme vir fosforilering bestaan was nie slegs aangewese is op die aktiwiteit van GlgP nie, en om fosfaat te inkorporeer in linêre glukane. Die graad van fosforilering was ook afhanklik van die hoeveelheid fosfaat teenwoordig in die medium, met gevolglik minder wat geinkorporeer kan word in medium waar fosfaat verminderd was. Seleksie-gebaseerde ondersoeking vir fosforileringsensieme van glikogeen deur gebruik te maak van E. coli genomiese biblioteke in `n funksionele uitdrukkingssisteem het die malP geen geidentifiseer as een van die moontlike kandidate wat verantwoordelik kan wees vir inkorporering van fosfaat in the C6 posisie. Daar was egter geen verskil in die fosfaat inhoud van glikogeen tussen die wilde tipe en die mutante. Pogings wat aangewend is om `n malp-/glgpdubbel mutant te konstrueer was onsuksesvol. Verder is die invloed van plant en mens proteine op gis glikogeen ook bestudeer. Vroeër is aangetoon dat hierdie proteine `n invloed op stysel en glikogeen het in mense, plante en E. coli, maar data van hierdie studie toon aan dat dit nie die geval in gis is nie.

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.

A common problem observed in large-scale cell cultivation is reduced culture performance compared with small-scale processes due to the existence of concentration gradients caused by poor mixing. Small-scale simulations using microbial cell suspensions have shown that circulation of cells through concentration gradients of oxygen, pH and glucose can result in reduction of cell growth and product formation similar to the effects observed in large-scale bioreactors. This study was aimed at using scale-down studies to investigate poor mixing in large-scale bioreactors used for suspended plant and animal cell culture. Two plant cell suspensions and a hybridoma cell line were used in this work. The range of oxygen transfer coefficients achieved in the hybridoma and plant suspensions were about 50???20 h-1 and 12???6 h-1, respectively. One-vessel simulation was developed to induce fluctuations of dissolved oxygen tension in a 2-L bioreactor using intermittent sparging of air and nitrogen. The effect of dissolved oxygen fluctuations on the cells was examined by comparing the performance of the cultures with those operated at constant dissolved oxygen tension. In the hybridoma suspension culture, only slight effects on cell growth were observed at circulation times above 300 s. No effect on the specific glucose uptake rate or antibody production was observed at the circulation times tested. Analysis of gene expression for selected hypoxia-related genes also suggested that the overall effect was limited. In plant cell suspensions, the specific growth rates and biomass yields on total sugar in the cultures under fluctuating dissolved oxygen tension were essentially the same as those at constant dissolved oxygen tension for both transgenic Nicotiana tabacum and Thalictrum minus. Under fluctuating dissolved oxygen tension, no effect on antibody accumulation was observed in transgenic N. tabacum suspensions, but a decrease in berberine accumulation was observed in T. minus. From the results, it can be concluded that only minimal effects due to the development of concentration gradients would be expected in large-scale bioreactors used for the cultivation of the hybridoma and plant cell suspensions tested in this work.

Dissertation (PhD)--University of Stellenbosch, 2004.
152 Leaves printed single pages, preliminary pages i-xiv and 129 numberd pages. Includes bibliography. List of abbreviations.
ENGLISH ABSTRACT: Despite increased focus on ripening-related gene transcription in grapevine, and the large number of ripening-related cDNAs identified from grapes in recent years, the molecular basis of processes involved in grape berry ripening is still poorly understood. Moreover, little is known about the mechanisms involved in the ripening-related regulation of fruit-specific genes, since the isolation and characterisation of no ripening-related, fruit-specific promoter elements has been reported to date. This study was aimed at the isolation and characterisation of a fruit-specific, ripeningregulated gene from Vitis vinifera L. In the first phase of the work, gene transcription in ripening berries of Cabernet Sauvignon (a good quality wine cultivar) and Clairette blanche (a poor quality wine cultivar) were studied by Amplified Fragment Length Polymorphism analysis of complementary DNA (cDNA-AFLP analysis). Total RNA from immature (14-weeks post flowering, wpf) and mature (18-wpf) berries was used for the analysis. A total of 1 276 cDNA fragments were visualised, of which 175 appeared to be ripening related. Average pairwise difference of the fragments amplified from immature and mature Clairette and Cabernet berries, suggested that ripening-related gene transcription in these two phenotypically different cultivars is remarkably similar. Nevertheless, it was shown that seventy percent of the 175 ripening-related cDNA fragments were cultivar-specific. It was suggested that these differences should be targeted to identify genes related to the phenotypical differences between the two cultivars, but also to identify genes possibly involved berry quality. Moreover, the analysis illustrated the usefulness of cDNA-AFLPs for the analysis of ripening-related gene transcription during grape berry ripening. In the second phase of the work, one of the ripening-related cDNAs identified by the cDNA-AFLP analysis, was selected for further characterisation. This work highlighted the limitation placed on the isolation of a single specific sequence from a cDNA-AFLP gel, indicating the presence of multiple ripening-related genes in a single band excised from a cDNA-AFLP gel. Steps to overcome this limitation of cDNA-AFLP analysis to identify and clone a specific ripening-related gene, were implemented. In short, the band corresponding to the particular ripening-related cDNA was band was excised from the cDNA-AFLP polyacrylamide gel and re-amplified. Northern blot analysis using the re-amplified, uncloned product confirmed the ripening-related transcription demonstrated by cDNA-AFLP analysis. The re-amplified, uncloned product was then cloned. Sequence analysis of two randomly selected candidate clones revealed two distinctly different sequences, of which neither hybridised to messenger RNA from ripening grape berries. Furtheranalysis revealed an additional five cDNAs with terminal sequences corresponding to the selective nucleotides of the primers used for selective amplification, in the re-amplified, uncloned product. Of these, only two were abundantly expressed in ripening grape berries, accounting for the ripeningrelated transcription visualised by cDNA-AFLP analysis. All seven cDNAs identified from the particular excised band were shown to be ripening-regulated during berry development, although most were characterised by low levels of transcription during berry ripening. One of the clones, based on the relative high levels of the transcript and the initiation of gene transcription at the onset of véraison (10- to 12-wpf), was identified for isolation and characterisation of the full length coding sequence. In the third phase of the work, it was shown that this cloned sequence corresponded to a gene encoding a proline-rich protein (PRP) associated with ripening in Merlot and Chardonnay (mrip1, Merlot ripening-induced protein 1). It was shown that the gene is specifically transcribed in the fruit tissue, seed and bunchstems of grapes, from 10-wpf (véraison) to the final stages of berry ripening. The results showed that mrip1 encodes a distinct member of the plant PRP family. Most obvious is the central region of mrip1, which is comprised of eight consecutive repeats of 19 amino acid residues each. In comparison with other grapevine PRPs, mrip1 revealed single amino acid differences and deletion of one of the 19 amino acid residues repeats, all in the central region of mrip1. In situ hybridisation studies showed that accumulation of the mrip1 transcript in the ripening berry is limited to the mesocarp and exocarp cells of the ripening grape berry. No transcript with high sequences similarity to mrip1 could be detected in ripening strawberry or tomato fruit. Based on the properties and proposed function of PRPs, and the results obtained in this study, potential applications for the use of this gene in the control of cell wall architecture in fruits, were proposed. Furthermore, as manipulation of fruit properties in grape berries would be most important in the later stages of ripening, mrip1 was proposed an ideal candidate gene for the isolation of a fruit- and late-ripening-specific promoter to achieve transgene transcription in genetically modified grapevine. The final phase of the work was dedicated to the isolation and characterisation of the mrip1 promoter element. A 5.5 kb sequence corresponding to the mrip1 5’ untranslated (UTR) flanking region was isolated and characterised by sequence analysis. In the 2.8 kb sequence directly upstream of the mrip1 transcription initiation site, several putative cis-acting regulatory elements were identified. These include a spectrum of hormone-, light-, phytochrome-, sugar-and stressresponsive elements, as well as elements implicated in tissue-specific transcription. Analysis of the sequence further upstream (3.6 – 5.5 kb) of the mrip1 transcription initiation site (TIS), revealed the presence of another proline-rich protein directly upstream of mrip1. Sequence identity of this sequence (mprp2) to the mrip1 coding sequence was 88%. This information provided the first insight into the chromosomal organisation of grapevine PRPs. For functional analysis of the mrip1 promoter element, the 2.2 kb sequence directly upstream of the mrip1 TIS, was translationally fused to the sgfpS65T reporter gene. Functionality of the mrip1:sgfpS65T fusion was verified by transient expression in green pepper pericarp tissue, before introduction into tobacco by Agrobacteriummediated transformation. In transgenic tobacco, transcription of the mrip1:sgfpS65T fusion was developmentally-regulated and specific to the ovary and nectary-tissue of the developing flower. Whilst low in immature flowers, the green fluorescent protein (GFP) rapidly accumulated to the high level of expression visualised in the flower in full-bloom, followed by a decrease in the final stages of ovary development. These observations suggested that the 2.2 kb mrip1 promoter is functional and that this promoter region harbours cis-elements necessary for tissue- and developmental-specific regulation of GFP accumulation. It furthermore suggested that the transcriptional activation of mrip1 is mediated by developmental signals present in both grapevine berries and tobacco flowers. Results presented, suggest that the use of tobacco as heterologous system for the analysis of ripening-related promoters, can be more generally applied. Evidently, characterisation of the mrip1 promoter region contributes towards a better understanding of the regulatory mechanisms involved in non-climacteric fruit ripening, and forms a basis for future experiments defining the cis-acting elements necessary for tissue- and cell-specific gene regulation in fruit, more specifically in grapevine. Moreover, the mrip1 promoter is an ideal candidate for the ripening-related, tissue-specific regulation of transgene transcription in genetically modified grapevine.
AFRIKAANSE OPSOMMING: Ten spyte van toenemende fokus op rypwordings-verwante geentranskripsie in druiwe, en die groot aantal rypwordings-verwante komplimentere DNA (cDNA) fragmente wat gedurende die laaste paar jaar in druiwe geïdentifiseer is, word die molekulêre basis van prosesse betrokke by die rypwording van die druif, steeds swak begryp. Nog te meer, is baie min bekend oor die meganismes betrokke in the rypwordings-verwante regulering van vrugspesifieke gene, aangesien die isolering en karakterisering van nie een rypwordings-verwante, vrugspesifieke promoter tot dusver gerapporteer is nie. Die doel van hierdie studie was die isolering en karakterisering van ‘n vrugspesifieke, rypwordings-verwante geen uit druiwe (Vitis vinifera L). In die eerste fase van die werk, is geentranskripsie in rypwordende druiwekorrels van Cabernet Sauvignon (‘n goeie kwaliteit wyn kultivar) en Clairette blanche (‘n swak kwaliteit wyn kultivar) bestudeer deur middel van cDNA-AFLP vingerafdrukke. Totale RNA van onvolwasse (14-weke na blom vorming) en volwasse (18-weke na blom vorming) druiwekorrels was gebruik vir die analise. ‘n Totaal van 1 276 cDNA fragmente is gevisualiseer, waarvan 175 as rypwordings-verwant voorgekom het. Gemiddelde paarsgewyse verskille van die fragmente wat vanaf onvolwasse en volwasse Clairette en Cabernet druiwekorrels geamplifiseer is, het aangedui dat rypwordingverwante geentranskripsie in die twee kultivars, wat fenotipies baie van mekaar verskil, merkwaardig soortgelyk is. Nieteenstaande, is daar gewys dat sewentig persent van die 175 rypwordings-verwante cDNA fragmente, kultivar-spesifiek is. Daar is voorgestel dat hierdie spesifieke cDNAs verder geanaliseer word om gene betrokke by die fenotipiese verskille tussen die twee kultivars te identifiseer; maar ook om gene te identifiseer wat moontlik by die kwaliteit van die druiwekorrel betrokke is. Voorts, het die analise die bruikbaarheid van die cDNA-AFLP tegniek vir die karakterisering van rypwordings-verwante geentranskripsie in rypwordende druiwekorrels, geïllustreer. In die tweede fase van die werk, is een van die rypwordings-verwante cDNAs wat met die cDNAAFLP analise geïdentifiseer is, geselekteer vir verdere karakterisering. ‘n Aantal rypwordingsverwante cDNAs is in die enkele band wat uit die cDNA-AFLP gel gesny is, geïdentfiseer. Dit het die beperking wat geplaas word op die isolering van ‘n enkel, spesifieke cDNA uit die cDNA-AFLP gel, beklemtoon. Stappe om hierdie beperking te oorkom, en ‘n spesifieke rypwordings-verwante cDNA te identfiseer en te kloneer, is beskryf. In kort, die band oorstemmend met die spesifieke rypwordings-verwante cDNA, is uit die cDNA-AFLP poli-akrielamied gel gesny en gereamplifiseer. Noordelike klad analise waarin die ge-reamplifiseerde, ongekloneerde produk aspeiler gebruik is, het die rypwordings-verwante transkripsie soos deur cDNA-AFLP analise aangedui, bevestig. Die ge-reamplifiseerde, ongekloneerde produk is daarna gekloneer. Nukleotied volgorde bepaling van twee ewekansig geselekteerde kandidaat klone, het twee duidelik verskillende cDNAs aangetoon, waarvan nie een enige hibridisering met boodskapper RNA van rypwordende druiwekorrels getoon het nie. Verder analise het die teenwoordigheid van ‘n verder vyf cDNAs met terminale nukleotied volgordes ooreenstemmend met die selektiewe nukleotiede van die voorlopers wat gebruik is vir selektiewe amplifisering, aangetoon. Van hierdie, het slegs twee hoë vlakke van geentranskripsie in rypwordende druiwekorrels getoon; heel moontlik verteenwoordigend van die rypwordings-verwante geentranskripsie wat met die cDNA-AFLP analise gevisualiseer is. Die studie het gewys dat al sewe cDNAs rypwordings-verwant is, alhoewel die meeste van hierdie cDNAs baie lae vlakke van geentranskripsie tydens duiwekorrel rypwording getoon het. Gebaseer op relatief hoë vlakke van die transkrip, en die inisiering van geen transkripsie met die aanvang van vrugrypwording (véraison, 10- tot 12-weke na blomvorming), is een van die cDNAs geselekteer vir isolering en karakterisering van die vollengte koderings volgorde. In die derde fase van die werk, is dit aangetoon dat hierdie cDNA ooreenstem met ‘n geen wat vir ‘n proline-ryke proteïen (PRP), geassosieerd met vrugrypwording in Merlot en Chardonnay, kodeer. Hierdie geen is genoem Merlot rypwording-geïnduseerde proteïen 1 (mrip1). Die studie het verder aangetoon dat hierdie geen spesifiek in die weefsel van druiwekorrels, saad and stammetjies van die druiwetros getranskribeer word, vanaf 10-weke na blomvorming (véraison) tot 16-weke na blomvorming. Resultate het aangetoon dat mrip1 vir ‘n unieke lid van die plant PRP familie kodeer. Mees opvallend, is die sentrale gedeelte van mrip1, wat uit agt opeenvolgende herhalings van negentien aminosure elk bestaan. In vergelyking met ander druif PRPs, toon mrip1 enkel aminosuur verskille en ‘n delesie van een van die negentien aminosuur herhalings, alles in die sentrale gedeelte van mrip1. In situ hibridisering het getoon dat akkumulering van die mrip1 transkrip net in selle van die mesocarp en eksokarp van die rypwordende druif plaasvind. Geen transkip met hoë nukleotied gelyksoortigheid aan mrip1 kon in rypwordende aarbeie of tamatie vrugte aangetoon word nie. Gebaseer op die eienskappe en funksie van PRPs soos voorgestel in die literatuur, en die bevindinge van hierdie studie, is potensiële toepassings vir die gebruik van die geen in die beheer van selwand argitektuur in vrugte, voorgestel. Verder, aangesien die manipulering van vrugkwaliteit in die druif veral belangrik is vanaf die aanvang van vrugrypwording (véraison), is daar voorgestel dat mrip1 ‘n ideale kandidaat is vir die isolering van ‘n vrugspesifieke en rypwording-verwante promoter vir gebruik in geneties gemodifiseerde druiwe. Die laaste fase van die studie was gewy aan die isolering en karakterisering van die mrip1 promotor element. ‘n 5.5 kb fragment ooreenstemmend met die mrip1 5’ ongetransleerde area is geisoleer en gekarakteriseer deur middel van nukleotied volgorde bepaling. In die 2.8 kb area direk stroomop van die mrip1 transkripsie inisiasie punt (TIS), is verskeie moontlike cis-beherende regulatoriese elemente geïdentifiseer. Hierdie sluit in ‘n spektrum van hormoon-, lig-, fitochroom-, suiker- en stress-reagerende elemente, asook elemente geïmpliseer in weefselspesifieke geentranskripsie. Analise van die area verder stroomop (3.6 – 5.5 kb) van die mrip1 TIS, het die teenwoordigheid van ‘n ander PRP direk stroomop van mrip1 getoon. Nukleotied gelyksoortigheid van hierdie geen (MPRP2) aan die mrip1 koderingsgebied was slegs 88%. Hierdie inligting verskaf die eerste insig in die chromosomale organisasie van druif PRPs. Vir funksionele analise van die mrip1 promotor element, is die 2.2 kb area direk stroomop van die mrip1 TIS transkripsioneel verenig met die sgfpS65T merker geen. Funksionaliteit van die mrip1: sgfpS65T fusie is bevestig deur middel van kortstondige (transient) geenuitdrukking in die perikarp van groenrissie, voordat dit ingevoer is in tabak met Agrobacterium-bemiddelde genetiese transformasie. In transgeniese tabak was transkripsie van die mrip1:sgfpS65T fusie ontwikkelingsstadium-gereguleerd, en spesifiek in die ovarium en heuningsakkie (nektarium) van die ontwikkelende blomme. Terwyl die vlak van geenuitdrukking laag was in die jong blomme, het GFP baie vinnig akkumuleer tot die hoë vlakke wat in die blomme in volle-blom gevisualiseer is. Daarna het dit weer vinnig afgeneem tydens die finale stadiums van ovarium ontwikkeling. Hierdie waarnemings dui daarop dat die 2.2 kb mrip1 promotor element funksioneel is en dit al die nodige cis-beherende regulatoriese element bevat wat nodig is vir weefsel- en ontwikkelingsstadium-spesifieke regulering van GFP akkumulering. Dit dui verder daarop dat transkripsionele aktivering van mrip1 beheer word deur ontwikkelingsstadium seine teenwoordig in beide die druif en tabakblomme. Hierdie resultate stel voor dat tabak meer algemeen gebruik kan word as heteroloë sisteem vir die analise van rypwording-verwante promotors. Duidelik dra die karakterisering van die mrip1 promoter element by tot ‘n beter begrip van die regulatoriese meganismes betrokke by die rypwordingsproses van nie-klimateriese vrugte, en vorm die basis vir toekomstige eksperimente waarin die cis-beherende regulatoriese elemente vir vrug- en sel-spesifieke geen regulering, meer spesifiek die druif, bepaal sal word. Meer nog, is die mrip1 promotor ‘n ideale kandidaat vir weefsel-spefieke en rypwording-verwante regulering van transkripsie van die transgeen in geneties gemodifiseerde druiwe.

Thesis (MSc (Genetics. Institute for Plant Biotechnology (IPB)))--Stellenbosch University, 2008.
Dextran is a high value glucose polymer used in medicine and an array of laboratory techniques. It is synthesised by lactic-acid bacteria from sucrose but has also reportedly been produced by Gluconobacter oxydans (G. oxydans) from a range of maltooligosaccharides (MOS) via the action of dextrin dextranase (DDase). In this study the presence of DDase is investigated in two G. oxydans strains (ATCC 621H and ATCC 19357) and shown to be present in the ATCC 19357 strain, but not in the ATCC 621H strain. The enzyme was partially purified from the ATCC 19357 strain, and its kinetic properties investigated. The partially purified protein was also digested with trypsin, and de novo peptide sequences obtained from it. Several attempts were made to obtain the gene coding for the DDase. These include amplifying an open reading frame from the G. oxydans genome coding for a glycosyltransferase with the approximate molecular weight of the DDase, using the peptide sequences obtained from the partially purified protein to design degenerate PCR primers and the production of a genomic DNA library for functional screening in E. coli. None of these approaches led to the successful isolation of the extracellular DDase sequence.

A vector, called pWreckl, was constructed for the direct DNA transformation of N. tabacum protoplasts. This vector was shown to confer kanamycin resistance to transformed callus. Using derivatives of this plasmid containing various reporter genes, a protocol for direct DNA transformation by PEG-mediated uptake was established. However, all attempts to obtain transformed callus by electroporation were unsuccessful. The CAB6 gene from N. tabacum was identified as a suitable candidate for gene targeting and was further manipulated to produce constructs in pWreckl which were used in gene targeting experiments. Using a derivative of pWreckl, called BinsupF, transformed tobacco plants were generated and used as a model system for the rescue of integrated sequences by supF selection. This system was found to be capable of rescuing integrated pWreckl sequences, but at an efficiency below that which would be required for the rescue of rare gene targeting events. Therefore a second protocol was developed which used the technique of polymerase chain amplification to amplify specific integration events. Following direct DNA transformation with a pWreckl.CAB6 construct, a number of possible gene targeting events were identified and subcloned into pUC13. Partial sequencing of these clones revealed that they were not the result of homologous recombination, but arose through a combination of plasmid degradation and rearrangement which appeared to precede the actual integration event.

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.

Thesis (PhD)--Stellenbosch University, 2012.
Salinity stress is one of the major environmental factors that lead to poor crop yield. This is due to overproduction of reactive oxygen species (ROS) which consequently lead to oxidative stress. Although these ROS may be required for normal physiological functions, their accumulation acts as a double edge sword, as they also cause oxidative damage to nucleic acids, lipids and proteins of plant cell membranes. Plants have evolved with an efficient antioxidant defensive system in order to protect and detoxify harmful effects of ROS. Ascorbate peroxidase (APX) is regarded as one of the major scavengers of H2O2. Although some studies have described the role of nitric oxide (NO) in diverse physiological processes in plants, there is still much to know as regards to modulation of APX activity by nitric oxide in salinity-induced stressed plants. For the purposes of this study, the effect of salt and exogenously applied NO on APX, dehydroascorbate reductase and antioxidant metabolite content was determined. This study investigated the use of NO donor 2,2'-(hydroxynitrosohydrazono) bis-ethanimine (DETA/NO) and diethylenetriamine (DETA) on soybean. The data obtained from this study shows that application of DETA/NO resulted in an increase of NO nodular content and also regulated APX activity. The NO-induced changes in APX enzymatic activity were coupled to altered nodule H2O2 content. Further analysis of APX enzymatic activity identified three APX isoforms for which augmented enzymatic activity occurred in response to NO. By supplementing salinity-induced stress soybeans with NO, this study shows that tolerance to salt stress is improved. The underlying mechanism of the NO-mediated tolerance to salt is shown to be its role in modulating the plant antioxidant defense system thus maintaining redox status under salinity-induced stress. Here, although there was increased APX activity in salt stressed plant, supplementing the salinity-induce stressed plants with NO resulted to even higher APX activity which was sufficient to detoxify ROS. Furthermore, this study shows that the NO-mediated effect is not limited in antioxidant enzymes but also involves regulating antioxidant metabolite ratio through modulating the antioxidant enzymes that are involved in the ascorbate -glutathione cycle.

Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2007.
The photosynthetic protist Euglena gracilis synthesizes a storage carbohydrate named paramylon, a glucan consisting only of β-(1-3)-glycosidic linkages. The enzyme that produces paramylon is a glycosyltransferase commonly known as paramylon synthase (EC 2.4.1.34; UDP-glucose: 1,3-β-D-glucan 3-β-D-glucosyl transferase). This enzyme uses UDP-glucose as its main substrate. In 2001, Bäumer et al. isolated and partially purified paramylon synthase, but never presented any sequence information. Hence, the main aim of this project was to isolate and characterize the gene(s) coding for the paramylon synthase. Different approaches were taken in order to isolate and characterize the gene(s). In the first part of the study molecular techniques were used to try and identify the gene. The two methods used were library screening and PCR amplification. Different libraries were screened using either functional staining or an affinity probe. The second method concentrated on the use of degenerate oligonucleotides, based on the amino acid sequences of conserved regions from known β-(1-3)-glucan synthase genes from various organisms, to PCR amplify the gene sequence from Euglena. These approaches were not successful in the isolation of the gene(s). In the second part of the study protein purification techniques were used in an attempt to obtain de novo protein sequence from the purified paramylon synthase enzyme. Several protein purification techniques were tried with the most successful being preparative ultra centrifugation followed either by sucrose density centrifugation or product entrapment (a type of affinity purification). These resulted in partial purification of the paramylon synthase protein. The partially purified proteins were separated using polyacrylamide gel electrophoresis, and the polypeptides able to bind the precursor, UDP-glucose, were identified using a radiolabeled isotope of UDP-glucose. These polypeptides were subjected to LC-MS-MS in order to obtain sequence information from them. One tryptic fragment showed high homology to β-(1,3)-glucan synthase genes from different yeasts.

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.

The biological degradation of lignocellulose into fermentable sugars for the production of liquid transportation fuels is feasible and sustainable, but equires a variety of enzymes working in synergy as lignocellulose is a complex and recalcitrant substrate. The cellulosome is a multi-enzyme complex (MEC) with a variety of cellulolytic and hemicellulolytic enzymes that appears to facilitate an enhanced synergy and efficiency, as compared to free enzymes, for the degradation of recalcitrant substrates such as lignocellulose and plant cell walls. Most of the studies on cellulosomes have focused on a few organisms; C. thermocellum, C. cellulovorans and C. cellulolyticum, and there is only limited knowledge vailable on similar complexes in other organisms. Some MECs have been identified in aerobic bacteria such as Bacillus circulans and Paenibacillus curdlanolyticus, but the nature of these MECs have not been fully elucidated. This study investigated the cellulolytic and emi-cellulolytic system of Bacillus licheniformis SVD1 with specific reference to the presence of a MEC, which has never been reported in the literature for B. licheniformis. A MEC of approximately 2,000 kDa in size, based on size exclusion chromatography using Sepharose 4B, was purified from a culture of B. licheniformis. When investigating the presence of enzyme activity in the total crude fraction as well as the MEC of a birchwood xylan culture, B. licheniformis was found to display a variety of enzyme activities on a range of substrates, although xylanases were by far the predominant enzyme activity present in both the crude and MEC fractions. Based on zymogram analysis there were three CMCases, seven xylanases, three mannanases and two pectinases in the crude fraction, while the MEC had two CMCases, seven xylanases, two mannanases and one pectinase. The pectinases in the crude could be identified as a pectin methyl esterase and a lyase, while the methyl esterase was absent in the MEC. Seventeen protein species could be detected in the MEC but only nine of these displayed activity on the substrates tested. The possible presence of a β-xylosidase in the crude fraction was deduced from thin layer chromatography (TLC) which demonstrated the production of xylose by the crude fraction. It was furthermore established that B. licheniformis SVD1 was able to regulate levels of enzyme expression based on the substrate the organism was cultured on. It was found that complexed xylanase activity had a pH optimum of between pH 6.0 and 7.0 and a temperature optimum of 55oC. Complexed xylanase activity was found to be slightly inhibited by CaCl2 and inhibited to a greater extent by EDTA. Complexed xylanase activity was further shown to be activated in the presence of xylose and xylobiose, both compounds which are products of enzymatic degradation. Ethanol was found to inhibit complexed xylanase activity. The kinetic parameters for complexed xylanase activity were measured and the Km value was calculated as 2.84 mg/ml while the maximal velocity (Vmax) was calculated as 0.146 U (μmol/min/ml). Binding studies, transmission electron microscopy (TEM) and a bioinformatic analysis was conducted to investigate whether the MEC in B. licheniformis SVD1 was a putative cellulosome. The MEC was found to be unable to bind to Avicel, but was able to bind to insoluble birchwood xylan, indicating the absence of a CBM3a domain common to cellulosomal scaffoldin proteins. TEM micrographs revealed the presence of cell surface structures on cells of B. licheniformis SVD1 cultured on cellobiose and birchwood xylan. However, it could not be established whether these cell surface structures could be ascribed to the presence of the MECs on the cell surface. Bioinformatic analysis was conducted on the available genome sequence of a different strain of B. licheniformis, namely DSM 13 and ATCC 14580. No sequence homology was found with cohesin and dockerin sequences from various cellulosomal species, indicating that these strains most likely do not encode for a cellulosome. This study described and characterised a MEC that was a functional enzyme complex and did not appear to be a mere aggregation of proteins. It displayed a variety of hemi-cellulolytic activities and the available evidence suggests that it is not a cellulosome, but should rather be termed a xylanosome. Further investigation should be carried out to determine the structural basis of this MEC.

Thesis (Ph. D.)--University of Kentucky, 2004.
Title from document title page (viewed on June 22, 2006). Document formatted into pages; contains viii, 116 p. : ill. (some col.). Includes abstract and vita. Includes bibliographical references (p. 103-114).

Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2009.
ENGLISH ABSTRACT: Sutherlandia frutescens (L.) R. Br., also regarded as Lessertia frutescens, is a leguminous, perennial shrub indigenous to South Africa. Extracts prepared from the leaves have traditionally been used for the treatment of various diseases. Reports have also indicated that S. frutescens provides certain health benefits to cancer and HIV/AIDS patients. Analysis of extracts indicated the presence of several compounds (bitter triterpenoid glycosides, several flavonoids, amino acids, small amounts of saponins (no alkaloids though), asparagine, Larginine, canavanine, gamma-aminobutyric acid (GABA) and pinitol) which contribute to the medicinal properties of this plant. The first part of this study involved testing the effect of six treatments (light, dark, soaking of seeds, physical scarification, chemical scarification and flaming of seeds) on the in vitro germination of Sutherlandia seeds to elucidate the factors which control seed germination. Those treatments which removed the seed coat were most successful for germination with physical scarification being the most efficient method, resulting in 98.6% of the seeds germinating after 21 days. Although the organogenesis of Sutherlandia explants (cotyledons and hypocotyls) in vitro were investigated (results not included in this thesis), omitting plant growth regulators (PGR) in the cultivation medium was best for shoot multiplication. However, this PGR-free system successfully provided a continuous supply of plant material for further studies. It would be possible to successfully adopt it for commercial production of plants to assist with cultivation of Sutherlandia as a field crop. Another advantage of this system is spontaneous rooting with 85% of the in vitro microshoots rooting in PGR-free medium. These rooted plants were acclimated in the glasshouse using vented lids to harden off the shoots and this method resulted in 100% survival of plants. The second part of this study investigated the induction of hairy root cultures of S. frutescens using Agrobacterium-mediated transformation. The efficiency of three Agrobacterium strains (A4T, LBA9402 and C58C1) to transform different S. frutescens explants (cotyledons and hypocotyls) was analyzed. All three strains were equally efficient at inducing hairy roots in both hypocotyls and cotyledons. However, transformation of S. frutescens was dependent on the type of explant used with the hypocotyls being more efficiently transformed than the cotyledons. Overall the transformation of both the hypocotyl (93%) and cotyledon (47%) was highest when the strain A4T was used. Four hairy root clones were selected and their cultivation in a liquid system was optimized by investigating their growth in four different types of media (Gamborg B5 (Gamborg et al., 1968), White’s (White, 1934; White, 1954), MS (Murashige and Skoog, 1962) and half strength MS medium). All the growth of hairy root clones was best in the B5 and MS medium, with White’s medium being the least effective cultivation medium. Molecular analysis of hairy roots was used to prove the transgenic status of these four putative transgenic clones. This was achieved using polymerase chain reaction (PCR) amplification of rol A (320 bp), B (780 bp) and C (600 bp) genes to determine the presence of the TL-DNA in the plant genome. During Southern hybridization a radioactively labeled rol A probe was used to determine the copy number of the rol A gene. The three rol genes were present in all four hairy root clones. The third part of this study focused on the effect of three abiotic stress factors (nitrogen availability, salinity and drought) on the synthesis of four metabolites (gamma-aminobutyric acid (GABA), asparagine, arginine and canavanine). The effect of nitrogen availability on metabolite synthesis and the morphology was determined using in vitro shoot cultures as well as the hairy root clone C58C1-g. Nitrogen availability studies were conducted by cultivating the microshoots or root tips on modified MS medium. The MS medium contained either the normal amount of nitrogen (1.9 g L-1 KNO3 and 1.65 g L-1 NH4NO3) in the MS medium (1x nitrogen), half the normal nitrogen concentration in MS medium (0.5x nitrogen) or twice the normal nitrogen concentration in MS medium (2x nitrogen). The arginine and asparagine levels in the roots and shoots and the canavanine level in the shoots were directly correlated with the amount of nitrogen in the medium (as the nitrogen level increased, the metabolite levels increased). The GABA level in the shoots was inversely correlated with the amount of nitrogen in the medium. Several reasons may explain these metabolic changes including the assimilation of extra nitrogen into asparagine, canavanine and arginine in the shoots. The reduced GABA levels may indicate the preferential flux of the free GABA into other nitrogen assimilatory pathways such as protein synthesis as well as its rapid utilization to replenish the tricarboxilic acid cycle intermediates. The effect of water (induced by including 3% (w/v) PEG in the medium) and salt stress (induced by including either 50 or 100 mM NaCl in the medium) was only investigated in the shoot cultures as the root cultures lacked the synthesis of canavanine. Water stress did not significantly alter the metabolite levels, but resulted in a significant decrease in the growth (fresh weight and total shoot length) and the rooting response of these microshoots. Salt stress only resulted in a significant increase in arginine levels with increasing salinity and also caused a reduction in the rooting and growth response. Lowered plant vigour may be the first visual sign of water stress. Addition of NaCl may lead to ion toxicity and requires osmotic adjustment resulting in changes at the metabolic level concomitant to physiological growth changes. Finally, the anti-bacterial activity and the phytochemistry of transgenic root cultures and untransformed in vitro and ex vitro plant material was examined. Only the extracts prepared from the wild harvested leaf material exhibited moderate anti-bacterial activity (1.25 mg ml-1) against all the bacteria (Escherichia coli, Klebsiella pneumoniae, Bacillus subtilis and Staphylococcus aureus) tested. Changes to the secondary metabolism of hairy roots were investigated using TLC and LC-MS analysis. Several of the compounds in the hairy root extracts were present in higher levels than in the control root extracts. Transformation also increased the complexity of the phytochemical pattern of the hairy roots, either due the synthesis of novel compounds or upregulated synthesis of existing metabolic pathways. The production of hairy roots and the establishment in a liquid system during this study was an important step towards upscaling these cultures to a bioreactor. In future these roots can assist in developing cultures which produce a high yield of the desired metabolites.
AFRIKAANSE OPSOMMING: Sutherlandia frutescens (L.) R. Br., ook bekend as Lessertia frutescens is ‘n peulagtige meerjarige struik, inheems tot Suid Afrika. Ekstrakte wat van die blare voorberei word, is tradisioneel gebruik vir die behandeling van verskeie siektes. Berigte het ook daarop gedui, dat S. frutescens sekere gesondheidsvoordele vir kanker en HIV/VIGS pasiënte inhou. ‘n Ontleding van die ekstrakte, dui op die teenwoordigheid van verskeie verbindings (bitter triterpenoïed glikosiede, verskeie flavonoïede, aminosure, klein hoeveelhede saponiene (alhoewel geen alkaloïede), asparagien, L-arginien, canavanien, gamma-aminobottersuur (GABS) en pinitol) wat tot die medisinale eienskappe van hierdie plant bydrae. Die eerste deel van die studie het die effek van ses behandelings (lig, donker, week van sade, fisiese skarifikasie, chemiese skarifikasie en die vlam van sade) op die in vitro ontkieming van Sutherlandia sade getoets met die doel om die faktore wat saadontkieming beheer, te identifiseer. Die beste behandeling vir saadontkieming was dié behandelings wat die saadhuid verwyder het. Die mees effektiewe metode van saadhuidverwydering was die fisiese skarifikasie van sade, wat gelei het tot ‘n 98.6% ontkieming van sade na 21 dae. Alhoewel in vitro organogenese van Sutherlandia eksplante (kotiel en hipokotiel) ondersoek was (resultate nie ingesluit in die tesis nie), was plant groei reguleerders (PGR) uitgesluit in die groeimedium om stingelvermeerdering te bevorder. Nie te min was die PGR-vrye sisteem suksesvol om ‘n voortdurende bron van plant material vir verder studies te verskaf. Dit sou egter moontlik wees om die PGR-vrye sisteem suksesvol te kon aanpas vir die kommersiële produksie van plante met die doel om Sutherlandia as ‘n landbougewas te bevorder. ‘n Verdere voordeel van dié sisteem, is die spontane wortelvorming, met 85% van die in vitro mikrostingels wat wortels in die PGR-vrye medium produseer het. Hierdie bewortelde plante was in die glashuis geakklimatiseer met behulp van geventileerde deksels (vir stingel afharding) en het tot ‘n 100% oorlewing gelei. Die tweede deel van die studie het die induksie van S. frutescens harige wortelkulture met behulp van Agrobacterium-bemiddelde transformasie ondersoek. Die effektiwiteit van drie Agrobacterium stamme (A4T, C58C1 en LBA9402) om verskillende S. frutescens eksplante (kotiel en hipokotiele) te transformeer, was geanaliseer. Al drie stamme was ewe effektief om harige wortels op beide hipokotiel en kotiele te induseer. S. frutescens transformasie blyk egter tog van die tipe eksplant afhanklik te wees, aangesien die hipokotiele meer effektief as die kotiele getransformeer kon word. Met inagneming van beide die hipokotiel (93%) en kotiel vii (47%), was transformasie optimaal met die gebruik van die A4T stam. Vier harige wortelklone was geselekteer en hulle produksie in ‘n vloeibare sisteem was geoptimiseer deur hulle groei in vier verskillende tipe media (Gamborg B5 (Gamborg et al., 1968), White’s (White, 1934; White, 1954), MS (Murashige and Skoog, 1962) en half-sterkte MS medium) te ondersoek. B5 en MS medium was beskou as die beste vir alle die harige wortelklone se groei, terwyl White’s medium die minste doeltreffende groeimedium was. Molekulêre analise van die harige wortels was gebruik ten einde die transgeniese status van die vier vermoedelike transgeniese klone te bewys. Dit was behaal deur polimerase kettingreaksie amplifisering (PKR) van die rol A, B en C gene ten einde die teenwoordigheid van die TL-DNS in die plant genoom aan te toon. Tydens Southern hibridisasie was ‘n radioaktief gemerkte peiler gebruik om die aantal rol A geen kopieë te bepaal. Die drie rol gene was teenwoordig in al vier harige wortelklone. Die derde deel van die studie het gefokus op die effek van drie abiotiese stress faktore (stikstof beskikbaarheid, sout- en droogte stres) op die produksie van vier metaboliete (GABS, asparagien, canavanien en arginien). Die effek van stikstof beskikbaarheid op die metaboliet produksie asook die morfologie was bestudeer deur gebruik te maak van in vitro mikrostingels asook die harige wortel kloon C58C1-g. Stikstof beskikbaarheidstudies was uitgevoer deur die mikrostingels of wortelpunte in ‘n gewysigde MS medium te groei. Die MS medium was aangepas om die normale hoeveelheid stikstof (1.9 g L-1 KNO3 en 1.65 g L-1 NH4NO3) in MS medium (1x stikstof), of die helfte van die normale stikstof konsentrasie (0.5x stikstof) of twee keer die normale stikstof konsentrasie in MS medium (2x stikstof) te bevat. Die arginien en asparagien vlakke in die wortels en stingels, asook die canavanien vlak in die stingels was positief gekorreleerd aan die stikstof konsentrasie in die medium. Die GABS vlak in die stingels was egter omgekeerd eweredig aan die stikstof konsentrasie in die medium. Verskeie redes kan aangevoer word om die metaboliet veranderinge te verduidelik, insluitende die assimilasie van addisionele stikstof in asparagien, canavanien en arginien in die stingels. Die verlaagde GABS vlakke kan dui op die voorkeur van vrye GABS vloei na ander stikstofassimilerende metaboliese paaie soos proteïen sintese, asook die snelle benutting van GABS ten einde die Trikarboksielsuursiklus intermediêre produkte aan te vul. Die effek van droogte (geïnduseer deur die byvoeging van 3% (m/v) PEG tot die medium) en sout stres (geïnduseer deur 50 of 100 mM NaCl byvoeging tot die medium) was slegs in die stingel kulture ondersoek weens die afwesigheid van canavanien produksie in die wortel kulture. Water stres het nie ‘n betekenisvolle verandering in die metaboliet vlakke meegebring nie, maar dit het wel tot ‘n beduidende afname in groei (vars massa en totale stingel lengte) en bewortelingsreaksie in die mikrostingels gelei. Sout stres het slegs tot ‘n betekenisvolle viii toename in arginien vlakke asook ‘n afname in die wortelvorming en groeireaksie tydens die toenemende sout vlakke gelei. ‘n Verlaging in plant groeikragtigheid mag ‘n eerste visuele teken van water stres wees. Die toevoeging van NaCl tot die medium kan tot ioontoksisiteit lei en plante reageer deur middel van osmotiese aanpassing wat tot veranderinge in die metaboliet vlakke asook veranderinge in fisiologiese groei, lei. Die finale deel van die studie het die anti-bakteriële aktiwiteit en die fitochemie van die transgeniese wortel kulture asook die ongetransformeerde in vitro en ex vitro plant materiaal ondersoek. Slegs die ekstrakte verkry vanaf blaar materiaal geoes uit die natuur, het matige anti-bakteriële aktiwiteit (1.25 mg ml-1) teen al die bakterië (Escherichia coli, Klebsiella pneumoniae, Bacillus subtilis en Staphylococcus aureus) wat ondersoek is, getoon. Aanpassings in die sekondêre metabolisme van die harige wortels is deur middel van dunlaag chromatografie (DLC) en vloeibare chromatografie-massa spektroskopiese (VC-MS) analise ondersoek. Verskeie verbindings was in hoër vlakke in die harige wortels teenwoordig, as in die kontrole wortel ekstrakte. Transformasie het ook die kompleksiteit van die harige wortels se fitochemiese patroon verhoog, moontlik weens die produksie van nuwe verbindings of weens die opregulasie van bestaande metaboliese paaie. Die produksie van harige wortels en die vestiging daarvan in ‘n vloeibare sisteem tydens hierdie studie word beskou as ‘n belangrike stap na die opskalering van die kulture na bioreaktore. Hierdie wortels kan toekomstig tot die ontwikkeling van kulture met ‘n hoë produksie van gewenste metaboliete lei.

A novel technique was developed to immobilize plant cells. The cells are deposited on a surface of man-made fibrous material which provides for strong binding of the plant tissue biomass growing in the submerged culture. It was shown that the plant cells need to be fully viable for the attachment process to occur.
The scale-up of this technique to laboratory size specifically designed bioreactors was performed successfully. The cell immobilizing matrix was formed into a vertical spirally wound configuration to provide for a high immobilizing area-to-volume ratio (0.8-1.2 cm$ sp{-1}$). A modified airlift (riser-to-downcomer area ratio of 0.03 and vessel height-to-diameter (H/D ratio of 3) and a low H/D ($ sim$1.5) mechanically stirred vessel delivered the optimum bioreactor performance characterized by low foaming of the broth and highly efficient plant cell attachment and retention ($ geq$96%).
The growth of Catharantus roseus plant cells was investigated in these bioreactors. This process was found not to be mass transfer limited above minimal mild mixing and aeration levels ensuring sufficient supply of nutrients, especially oxygen (k$ sb{ rm L}$a $ sim$ 10-15 h$ sp{-1}$) to the immobilized biomass.
The gentle surface immobilization technique developed in this work did not hinder the biosynthesis potential of the SIPC. In fact, it appeared to induce a partial secretion of some valuable compounds into the culture medium. The mildness, easiness, efficiency, mass transfer characteristics, scale-up potential and biomass loading capacity (11-13 g d.w./L) of the surface immobilization technique make it superior to all other immobilization techniques used to culture plant cells. In addition, its bioreactor overall biomass concentration compares favourably to suspended plant cell concentrations attainable in bioreactors (15-20 g d.w./L).

Dissertation (PhD) -- University of Stellenbosch, 2002.
ENGLISH ABSTRACT: Sugarcane (Saccharum spp. hybrids) is a commercial crop plant capable of storing up to 20% sucrose on a fresh mass basis in the culm. Knowledge about gene expression during sugarcane growth and maturation is limited. The aim of this study was to assess whether an Expressed Sequence Tag (EST)-based approach towards analysis of sugarcane would reveal new information about gene expression and metabolic processes associated with sugarcane growth and development. The specific objectives were two-fold: firstly, to develop an EST database for sugarcane and secondly, to identify and analyse genes that are expressed in different sugarcane tissue types and developmental stages, with a specific focus on leaf and culm. An EST database for sugarcane was initiated to obtain information on sugarcane gene sequences. A total cDNA library was constructed from sugarcane immature leaf (leaf roll: meristematic region) tissue and 250 clones randomly selected and subjected to single-pass DNA sequence analysis. Sugarcane ESTs were identified by sequence similarity searches against gene sequences in international databases. Of the 250 leaf roll clones, 26% exhibited similarity to known plant genes, 50% to non-plant genes while 24% represented new gene sequences. Analysis of the identified clones indicated sequence similarity to a broad diversity of genes. A significant proportion of genes identified in the leaf roll were involved in processes related to protein synthesis and protein modification, as would be expected in meristematic tissues. Submission of 495 sugarcane gene sequences to the dbEST database represented the first sugarcane ESTs released into the public domain. Two subtracted cDNA libraries were constructed by reciprocal subtractive hybridisation between sugarcane immature and maturing internodal tissue. To explore gene expression during sugarcane culm maturation, partial sequence analysis of random clones from maturing culm total and subtracted cDNA libraries was performed. Database comparisons revealed that of the 337 cDNA sequences analysed, 167 showed sequence homology to gene products in the protein databases while 111 matched uncharacterised plant ESTs only. The remaining cDNAs showed no database match and could represent novel genes. The majority of ESTs corresponded to a variety of genes associated with general cellular metabolism. ESTs homologous to various stress response genes were also well represented. Analysis of ESTs from the subtracted library identified genes that may be preferentially expressed during culm maturation. The expression patterns of sugarcane genes were examined in different tissue sources and developmental stages to identify differentially expressed genes. cDNA arrays containing 1000 random clones from immature leaf and maturing culm cDNA libraries were hybridised with poly (At RNA from immature leaf, mature leaf, immature culm and maturing culm. All cDNAs examined hybridised to all four probes, but differences in signal intensity were observed for individual cDNAs between hybridisation events. No cDNAs displaying tissue- or developmental-stage specific expression were detected. Comparisons between hybridisation patterns identified 61 cDNAs that were more abundantly expressed in immature and mature leaf than the culm. Likewise, 25 cDNAs preferentially expressed in immature and maturing culm were detected. ESTs established for the differentially expressed cDNAs revealed sequence homology to a diverse collection of genes in both the leaf and the culm. These included genes associated with general cellular metabolism, transport, regulation and a variety of stress responses. None of the differentially expressed genes identified in the culm were homologous to genes known to be associated with sucrose accumulation. To examme differences at the level of gene transcription between low sucroseaccumulating and high sucrose-accumulating tissues, subtracted cDNA libraries were utilised. To isolate cDNAs differentially expressed during culm maturation, cDNA arrays containing 400 random clones (200 from each library) were screened with total cDNA probes prepared from immature and maturing culm poly (At RNA. Results indicated that 36% and 30% of the total number of cDNAs analysed were preferentially expressed in the immature and maturing culm, respectively. Northern analysis of selected clones confirmed culm developmental stage-preferential expression for most of the clones tested. ESTs generated for the 132 differentially expressed clones isolated exhibited homology to genes associated with cell wall metabolism, carbohydrate metabolism, stress responses and regulation, where the specific ESTs identified in the immature and maturing culm were distinct from each other. No developmentally regulated ESTs directly associated with sucrose metabolism were detected. These results suggest that growth and maturation of the sugarcane culm is associated with the expression of genes for a wide variety of metabolic processes. In addition, genes encoding enzymes directly involved with sucrose accumulation do not appear to be abundantly expressed in the culm.
AFRIKAANSE OPSOMMING: Kommersiële suikerriet variëteite (Saccharum spp. hibriede) is in staat om tot 20% sukrose op 'n vars massa basis in die stingel op te berg. Kennis oor geenuitdrukking tydens groei en rypwording is beperk. Die doel van die huidige studie was om vas te stelof 'n grootskaalse karatersisering van die geenvolgordes wat uitgedruk word "Expressed Sequence Tag (EST)-based approach" tot nuwe inligting aangaande die aard en omvang van metabolisme tydens groei en ontwikkeling van suikerriet sal lei. 'n Tweeledige benadering is in hierdie studie gevolg. Eerstens is 'n data basis oor die gene wat uitgedruk word "EST" databasis opgestel. Tweedens is gene geïdentifiseer en gekarakteriseer wat spesifiek op verskillende stadiums van ontwikkeling en in spesifiek weefsel uitgedruk word. Vir die opstel van die EST-databasis is 250 klone uit 'n totale cDNA biblioteek vanaf RNA uit suikerrietblaarweefsel (blaarrol:meristematiese streek) op 'n lukraak basis gekies en aan 'n enkel eenrigting DNA volgorde analise onderwerp. Suikerrriet EST's is geïdentifiseer deur middel van homologie soektogte teen geenvolgordes in internasionale databasisse. Uit die 250 blaarrol klone het 26% ooreenkomste met bekende plant gene en, 50% met nie-plant gene getoon. Ongeveer 24% het nuwe geenvolgordes verteenwoordig. Analise van die geïdentifeseerde klone het ooreenkomste met 'n breë diversiteit van gene getoon. 'n Betekenisvolle gedeelte van gene wat in die blaarrol geïdentifiseer is, is by proteïensintese en proteïenmodifikasies betrokke. Dit is in ooreenstemming met wat van meristematiese weefsel verwag kan word. Die 495 suikerriet geenvolgordes wat in die internasionale dbEST databasis gestort is, is die eerste sodanige inligting in die publieke domein. Twee spesifieke cDNA biblioteke (subtraction libraries) wat volgordes spesifiek aan onvolwasse suikerriet en rypwordende internodale weefsel bevat is voorberei. Geenuitdrukking gedurende die rypwordingsproses van die suikerrietstingel is bestudeer deur geenvolgorde analises van onwillekeurige geselekteerde klone van die twee eDNA biblioteke te doen. Van die 337 geenvolgordes wat geanaliseer is het 167 homologie met bekende gene en net 111ooreenkomste met ongekarakteriseerde plant gene getoon. Die oorblywende geenvolgordes het geen ooreenkomste met bekende gene getoon nie en daar kan dus aanvaar word dat hulle nuwe gene verteenwoordig. Die meerderheid ESTs het ooreenkomste met verskeie gene wat met sellulêre metabolisme geassosieer word getoon. ESTs wat homoloog was aan verskeie spannings geassosieerde gene was ook goed verteenwoordig. Die analise het gene wat by voorkeur tydens stringelrypwording uitgedruk word geidentifiseer. Die geenuitdrukkingspatrone van suikerriet in weefsels van verskillende oorsprong en ontwikkelingstadia is ondersoek om differensieel uitgedrukte gene te identifiseer. Reekse wat 1000 lukrake eDNA klone van onvolwasse en rypwordende stingel eDNA biblioteke is met poli-(A)-RNA van onvolwasse blaar, volwasse blaar, onvolwasse stingel en volwasse stingel gehibridiseer. Al die eDNA klone wat ondersoek is het met al vier die peilers gehibridiseer. Die intensiteit van die seine het egter grootliks gevarieer. Die analise het gelei tot die identifisering van 61 eDNA klone wat teen hoër vlakke in onvolwasse en volwasse blaar as in die stingel uitgedruk word. Daar is ook 25 eDNA klone wat by voorkeur in onvolwasse en rypwordende stingel uitgedruk word gevind. Gene wat geassosieer word met gewone sel metabolisme, vervoer prosesse, regulering en verskeie spannings-geassosieerde reaksies, is in die twee groepe teenwoordig. Geeneen van die volgordes wat selektief uitgedruk word kan met gene wat direk met sukrose akkumulering verband hou geassosieer word nie. Ten einde eDNA klone wat differensieel tydens rypwording van die stingel uitgedruk word te isoleer, is 400 eDNA klone (200 van elke biblioteek) lukraak geselekteer en met totale eDNA peilers, wat uit onvolwasse en rypwordende stingel poli-(A)-RNA voorberei is, gesif. Resultate het aangetoon dat 36% en 30% van die totale getal eDNA klonewat geanaliseer is, by voorkeur in die onvolwasse en rypwordende stingel uitgedruk word. RNA kladanalises van geselekteerde klone het getoon dat die meeste ontwikkelingstadium spesifieke uirtdrukkingspatrone het. Daar is gevind dat 132 van die EST klone homologie met gene geassosieerd met selwand- en koolhidraatmetabolisme, spannings geassosieerde- en reguleringsreaksies, toon. Die spesifieke ESTs wat in die onvolwasse en rypwordende stingel geïdentifiseer is het van mekaar verskil. Nie een van die ESTs wat geïdentifiseer is kan direk met sukrose metabolisme geassosieer word nie. Hierdie werk toon baie duidelik aan dat groei en rypwording van die suikerrietstingel met die uitdrukking van gene geassosieerd is wat by 'n hele aantal metaboliese prosesse betrokke is. Die resultate toon ook dat die gene wat vir ensieme kodeer wat direk by sukrose akkumulering betrokke is, nie teen hoë vlakke in die stingel uitgedruk word nie.

Thesis (MSc)--University of Stellenbosch, 2005.
ENGLISH ABSTRACT: The goals of this project were firstly to develop the tissue preparation and in situ hybridisation protocols for sugarcane culm tissue, and secondly to use the developed techniques to examine the expression patterns of three invertase isoforms in sugarcane internodes of various developmental stages. Sugarcane invertases have been the focus of intense research for many years, yet almost nothing is known of their tissue-specific distribution. It was thought that by characterising their expression patterns using in situ hybridisation, more knowledge of their functions and involvement in sucrose accumulation would be gained. Although in situ hybridisation is now regularly used to study gene expression in plants, there is to date only a single publication describing its use on immature sugarcane tissue. Therefore this technique needed further development, and this was achieved by comparing different tissue preparation methods, as well as by systematically testing the various parameters pertaining to each method. The in situ hybridization technique was also developed by testing and comparing a number of key parameters. It was found that fixing whole mount tissue for 48 h preserved sugarcane tissue adequately. High hybridization temperatures and probe concentrations provided the best signal, and including pre-treatment with HCl and Pronase was essential in sensitizing the tissue to the probe. A less viscous detection buffer reduced both osmotic effects and time required for signal detection. In the second part of this study, the developed method was used to examine the expression patterns of the three invertase isoforms in young, maturing and mature internodes of sugarcane, and the results were complemented with Northern blot analysis. Transcript of all three isoforms was found to be present in the storage parenchyma and in the phloem tissue. Transcript levels of all three isoforms declined in maturing tissue, with soluble acid invertase declining sharply and dropping below detection in maturing and mature tissue. Transcript levels of cell wall invertase and neutral invertase declined only gradually, and appreciable levels of both were still present in mature tissue. Acid invertase is suggested to be mainly involved in internode elongation, while cell wall invertase would appear to play important roles in phloem unloading and turgor control. Neutral invertase is suggested to be involved in either sucrose cycling or maintenance of hexose pools, however the function of this enzyme remains unclear. This study has demonstrated the value of in situ hybridization, yet at the same time has shown its limitations, especially when more traditional biochemical techniques are not employed to complement the results. Although the precise functions of the invertase isoforms in sugarcane remain inconclusive, this study has opened up the way for tissuespecific promoter design and future in situ studies of sugarcane invertases
AFRIKAANSE OPSOMMING: Die doel van hierdie projek was tweeledig: eerstens om weefselvoorbereiding en in situhibridisasie- protokolle vir die stingelweefsel van suikerriet te ontwikkel; en tweedens om die ontwikkelde tegnieke te gebruik om die uitdrukkingspatrone van drie invertaseisovorme in die suikerriet-internodes van verskeie ontwikkelingstadia te ondersoek. Suikerriet-invertases is al vir jare lank die fokus van intense navorsing, maar baie min is bekend oor hulle weefselspesifieke verspreiding. Die idee was om meer kennis oor suikerriet-invertases se funksies en betrokkenheid by sukrose-akkumulasie te verkry deur in situ-hibridisasie te gebruik om hulle uitdrukkingspatrone te karakteriseer. Alhoewel in situ-hibridisasie deesdae gereeld gebruik word om geenuitdrukking in plante te bestudeer, is daar tot op datum slegs een publikasie wat die gebruik daarvan in onvolwasse suikerrietweefsel beskryf. Hierdie tegniek moes dus verder ontwikkel word, en dit is gedoen deur verskillende weefselvoorbereidingsmetodes te vergelyk en sistematies die verskillende parameters wat op elke metode van toepassing is te toets. Die in situ-hibridisasie-tegniek is ook ontwikkel deur die toetsing en vergelyking van 'n aantal sleutelparameters. Daar is gevind dat suikerrietweefsel voldoende gepreserveer word deur die intakte gemonteerde weefsel vir 48 uur te fikseer. Hoë hibridisasietemperature en hoë peilerkonsentrasies het die beste sein gegee; die insluiting van voorbehandeling met HCl en Pronase was noodsaaklik om die weefsel meer gevoelig vir die peiler te maak. Osmotiese invloede en die tyd nodig vir seindeteksie is verminder deur die viskositeit van die buffer te verminder. In die tweede deel van die studie is die ontwikkelde metode gebruik om die uitdrukkingspatrone van die drie invertase-isovorme in jong, ontwikkelende en volwasse internodes te ondersoek en die resultate is deur 'n noordelike oordraganalise gekomplementeer. Transkripte van al drie isovorme is in die stoorparenchiem en floëemweefsel gevind. Transkripvlakke van al drie isovorme het afgeneem in ontwikkelende weefsel, met oplosbare suurinvertase wat skerp afgeneem en tot onder die deteksie-limiet gedaal het in ontwikkelende en volwasse weefsel. Transkripvlakke van selwandinvertase en neutrale invertase het slegs geleidelik afgeneem en merkbare vlakke van albei was teenwoording in ontwikkelende en volwasse weefsel. Daar word voorgestel dat suurinvertase hoofsaaklik betrokke is by internodeverlenging, terwyl selwandinvertase skynbaar 'n belangrike rol in floëem-ontlading en turgor-beheer speel. Daar word voorgestel dat neutrale invertase betrokke is óf by die sukrose-sirkulering óf by die onderhoud van heksose-poele; die funksie van hierdie ensiem is egter steeds nie duidelik nie. Hierdie studie het die waarde van in situ-hibridisasie gedemonstreer maar terselfdetyd ook die beperkinge daarvan uitgewys, veral as meer tradisionele biochemiese tegnieke nie gebruik word om die resultate aan te vul nie. Alhoewel daar onsekerheid is oor die presiese funksies van die invertase-isovorme in suikerriet, het die studie die weg gebaan vir weefselspesifieke promotorontwerp en toekomstige in situ-studies van suikerrietinvertases.

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.

The modern Biotech Age possesses a very particular set of characteristics: the use of recombinant DNA technology, a close relationship between academic science and industry and, in Britain, public hostility to genetically modified crops. Yet despite increasingly widespread recognition among historians of science that biotechnology has a long and multi-faceted history, there is no thorough account of the history of plant biotechnology in British agriculture. Harnessing previously unexamined archival sources at the National Institute of Agricultural Botany (NIAB), John Innes Centre (JIC) and the Science Museum, this thesis uncovers a number of largely unexamined plant biotechnologies and discusses their uptake in British agriculture since the mid-twentieth century. In doing so, it raises several new insights for historians. Chapters One and Two demonstrate how two commercially successful biotechnologies, industrial hybridization and mutation breeding, found agricultural applications by careful integration with existing industrial systems. Chapter Three shows how plant cell fusion became a genuine alternative to recombinant DNA technology during the 1960s and ‘70s. Chapter Four counters the standard narrative of a move from the morphological to the molecular in biological analysis with a case study of electrophoresis and other classificatory technologies. Chapter Five demonstrates the importance of Cold War ideology on the development of biotechnology with a case study of the graft hybrid in British horticulture. Finally, Chapter Six examines the GM controversy in Britain and considers what broader lessons about public attitudes to biotechnology can be taken from the debate. Taken together, this thesis demonstrates that a unique combination of plant biotechnologies emerged in mid-twentieth-century Britain. These biotechnologies succeeded or failed to influence British agriculture thanks to a combination of technological, economic and ideological factors. The Biotech Age could, at many points since 1950, have emerged in a very different way with very different characteristics.

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.

Thesis (MSc)--Stellenbosch University, 2013.
ENGLISH ABSTRACT: Biopolymers and bio-degradable polymers are of utmost importance to ensure a sustainable economy. Industry depends on raw material, which in many cases are derived from fossil fuels, but in light of looming energy crises and green revolutions attention is being directed at cellulose and starch biopolymers. This study was therefore set forth to investigate novel genetic key elements of cell wall metabolism in Arabidopsis thaliana and starch synthesis in an under-utilized southern African crop plant, Tylosema esculentum. In the first section of the study a cDNA library of good quality was constructed from regenerating A. thaliana protoplasts as it was expected to be enriching for genes involved in cell wall biosynthesis. Small scale EST sequencing of the library confirmed that a few sequences were similar to genes identified to be highly expressed during protoplast regeneration. The library was to be screened by expression in a microalgae as it is anticipated that cell wall metabolising genes would change the wall structure and visibly alter the colony morphology. An attempt was made at establishing a high-throughput transformation system in the unicellular algae Chlorella protothecoides in which the library was proposed to be screened. Conventional microalgal transformation techniques do not appear to be effective in this strain as the study produced no transgenic algae. Alternative studies into a screening system within another species could still lead to the identification of cell wall biosynthetic genes, which was the first objective in the study. The second objective in the study was to investigate the potential of the orphan crop T. esculentum as starch-producing cash-crop in developing southern African countries. In this section of the study a cDNA library of good quality was produced form the tuber of T. esculentum. The library was transferred to an expression vector and screened functionally in E. coli for the presence of sequences with starch synthase activity. No sequences have been identified yet and screening procedures are still on-going. The starch content in the tuber has also been determined for the first time. The relatively high starch content in combination with low agricultural inputs indicate the potential of the plant as an industrial starch source. Further investigations into the nature of the starch are proposed to identify prospective buyers within the industry.
AFRIKAANSE OPSOMMING: Biopolimere en bio-afbreekbare polimere is van kardinale belang om ‘n volhoubare ekonomie te ontwikkel. Industriële toepassings maak op die oomblik hoofsaaklik staat op fossielbrandstof verwante bronne, maar met die oog op ‘n groen revolusie en energie krissise wat dreig word meer belangstelling getoon in sellulose en stysel biopolimere. Hierdie studie is daarom onderneem om genetiese elemente te identifiseer wat betrokke is by die sintese van die selwand in Arabidopsis thaliana en stysel sintese in die suider Afrikaanse gewas Tylosema esculentum wat grotendeels onderbenut is. In die eerste deel van die studie is ‘n cDNA biblioteek, van goeie kwaliteit, geskep vanuit A. thaliana protoplaste wat besig was om hulle selwande te herbou. Dit word verwag dat die protoplaste gedurende die tydperk aktief besig sal wees om gene uit te druk wat betrokke is by selwandsintese. DNA volgordebepaling het bevestig dat ‘n klein aantal volgordes ooreengestem het met gene wat voorheen gevind was om in ‘n oormaat uitgedruk te word tydens die herbou van protoplas-selwande. Daar was beoog om die biblioteek in ‘n mikroalge uit te druk en sodoende die morfologie op kolonievlak waar te neem vir verandering wat in die selwand meegebring is. Om hierdie rede was die doel om ‘n hoë opbrengs transformasie sisteem te ontwikkel in die mikroalge Chlorella protothecoides. Algemene mikroalge transformasie tegnieke blyk om nie effektief in die spesie te wees nie aangesien geen transgeniese alge waargeneem is nie. Die ontwikkeling van ‘n soortgelyke proses in ‘n ander spesie kan steeds lei na die ontdekking van gene betrokke by selwandsintese in A. thaliana wat die eerste uitkoms van die projek as geheel was. Die tweede uitkoms van die projek was om te ondersoek wat die waarskynlikheid was om T. esculentum te kommersialiseer as ‘n stysel gewas en sodoende ‘n inkomste te skep vir arm boere in ontwikkelende lande in suider Afrika. In hierdie gedeelte van die projek was daar ‘n goeie cDNA biblioteek geskep uit die knol van T. esculentum. Die biblioteek is oorgedra na ‘n plasmied waarop dit aktief uitgedruk kon word in Escherischia coli G6MD2 en daar is gesoek na volgordes wat lei na die sintese van stysel in hierdie bakterieë. Tot op hede is geen sulke volgordes gevind nie, maar die ondersoek gaan steeds voort. Die styselinhoud van die knol is ook vir die eerste keer bepaal in hierdie ondersoek. ‘n Styselinhoud wat relatief hoog is en die lae moeite wat geverg word om die gewas te verbou toon dat die plant potensieel het as ‘n kommersiële bron van stysel. Verdere ondersoeke in die aard van die stysel word ook voorgestel om toekomstige industriële kopers te identifiseer.

Use of biotechnology in agriculture has become beneficial for many farmers. However, growing of genetically modified crops has it's own specifics. Paper describes and evaluates specifics of use of biotechnologies in agriculture in the Czech Republic.

Thesis (MSc)--Stellenbosch University, 2012.
ENGLISH ABSTRACT: Almost all processes during the life of a plant are affected by the environment. Changes in phytohormone, metabolite and protein levels follow in response to changes in the environment. Plant growth promoting substances can stimulate changes at these levels to facilitate increased plant growth and yields above what the plant would normally establish. In this study, the effects of two growth promoting substances, smoke water (SW) derived from bubbling smoke from the burning of plant material through water, and a synthetic strigolactone analogue, GR24, on plant growth and architecture, as well as the proteome and metabalome of salt stressed Nicotiana benthamiana seedlings were investigated. Physiological studies were conducted to identify the effects of the growth substances on salt stressed seedlings in a tissue culture system. Under non-stress conditions, SW treatment increased seedling fresh mass, root length and leaf area. Under salt stress conditions (100 mM and 150 mM NaCl), SW increased fresh mass, root length, leaf number and lateral root number significantly. Under non-stress conditions, GR24-treated seedlings showed increased fresh mass, leaf number and area and root length. When GR24-treated seedlings were placed under salt stress, the seedlings showed significant increases in fresh mass, leaf number and lateral root number, but only marginal increases in root length and leaf area. Despite these similarities, slight differences were observed in the metabolomes and proteomes of smoke water and GR24-treated seedlings, both with and without the addition of salt stress. Relatively few of the differentially expressed proteins could be identified with the instruments available. Changes in the metabolome indicated that photoassimilation and photosynthesis could be affected in response to smoke water and GR24 treatment. Our results suggest that smoke water and GR24 both promote growth under salt stress conditions in seedlings and we furthermore conclude that, although there are distinct overlaps between treatments, this is accomplished via slightly different mechanisms.
AFRIKAANSE OPSOMMING: Gedurende ‘n plant se lewe word omtrent alle prosesse deur die omgewing geaffekteer. Veranderinge in die omgewing word gevolg deur veranderinge in hormoon, metaboliet en protein vlakke. Plant groei stimulante affekteer hierdie vlakke om plant groei en -opbrengs na bo normalle vlakke te verhoog. In hierdie studie word die effek van twee groei stimulante, rook water verkry deur rook van plant materiaal deur water te borrel en ‘n sintetiese strigolaktoon, GR24, ondersoek op ‘n morfologiese, metaboliese en ‘n proteomiese vlak in Nicotiana benthamiana saailinge. ’n Studie is onderneem om die veranderinge as gevolg van die onderskeie groei stimulante te ondersoek in ‘n weefsel kultuur sisteem. Rook water het onder normale groei omstandighede vars en droeë massa, blaar aantal asook wortel en blaar lengte verhoog. Rook water het na sout behandeling (100 en 150 mM NaCl) steeds vars massa, wortel lengte, blaai aantal en laterale wortel aantal beduidend verhoog in vergelyking met die sout stres kontrole. Behandeling met GR24 het ook vars massa, wortel lengte, blaar aantal en grootte verhoog en onder sout stres met GR24 is ‘n beduidende vergroting opgemerk in vars massa, blaar grootte en laterale wortel aantal. Ongeag van die veranderinge in groei is klein verskille opgemerk in die metaboliet en protein studies. Net ‘n paar proteine kon positief geidentifiseer word met die apparaat beskikbaar. Verandering in die metaboloom wys na veranderinge in fotoassimilasie en fotosintese in reaksie tot rook water en GR24. Hierdie resultate lei tot die gevolgtrekking dat rook water en GR24 beide groei verbeter in saailing behandel met sout en ook dat alhoewel daar sekere ooreenkomste is tussen die reaksies as gevolg van die plant groei stimulante, dit wel geskiet deur geringe verskillende meganismes.