Global ETD Search

1	Development of novel antibacterial and antiviral transgene vectors and techniques for their application and analysis in sugarcane. Pepper, Timothy Bryan. January 2002 (has links) Sugarcane is challenged by a number of phytopathogenic bacteria and viruses that are best managed by the development of resistant varieties. Genetic engineering is a promising strategy in such breeding efforts, as it allows novel mechanisms of resistance not available in any parent germplasm to be introduced into the crop. DNA sequences encoding cystatin from papaya (Carica papaya), and pleurocidin from the winter flounder (Pleuronectes americanus) were envisaged as transgenes in this work due to their theoretical potential to increase sugarcane resistance to viruses and pathogenic or opportunistic bacteria, respectively. Cystatin is a cysteine proteinase inhibitor. Cysteine proteinases are used by potyviruses to cleave the polyprotein gene product, an essential step in the viral life cycle. Constitutive expression of cystatin may therefore lend the host plant resistance to a range of potyviruses, including the economically important pathogen sugarcane mosaic virus (SCMV). Pleurocidin is an amphipathic, α-helical, cationic peptide, with broadspectrum anti-bacterial activity at physiological pH. By binding to the cell membranes of both Gram positive and Gram negative bacteria, pleurocidin disrupts the membrane potential, causing it to become more permeable, especially to cations, leading to death of the bacterial cell. Initial microbiological bioassays showed that pleurocidin has inhibitory and bactericidal effects on the organisms which cause leaf scald (Xanthomonas albilineans), gumming disease (Xanthomonas campestris pv. vasculorum) and post-harvest sucrose conversion in sugarcane, as well as inhibitory effects against Leifsonia xyli ssp. xyli, which causes ratoon stunting disease (RSD). For transformation vector construction, the cystatin and pleurocidin coding sequences were altered so that their start codons were in the most favourable consensus context for expression in monocotyledonous plants. In the case of pleurocidin, an extracellular peroxidase signal sequence was attached. The prepared sequences were spliced into the vector pUBI510 in which the gene of interest is driven by the CaMV 35S promoter linked in tandem to a derivative of the maize ubiquitin promoter. The constructs generated were named pUBI510-cys3 and pUBI510-pleur08 respectively. The plasmid structures were confirmed using restriction endonuclease analysis and DNA sequencing. Since the transformation of sugarcane is known to be inefficient, two routes of morphogenesis for the production of somatic embryos were compared in the transformation procedure. These were (1) indirect embryo production via callus and (2) the direct and indirect production of embryos from transverse sections of leaf roll. Field grown sugarcane varieties N12 and NCo376 were the source of explant material. Plasmids pUBI510-cys3 and pUBI510-pleuro8 were respectively co-delivered by microprojectile bombardment with the antibiotic resistance selection plasmid pUBIKN containing the neomycin phosphotransferase gene (npt-II). Cultures were maintained in the dark on selection medium containing various concentrations of the antibiotic geneticin (G418) for several weeks before being allowed to regenerate in the light. Plantlets coming through selection were hardened off in the glasshouse when approximately 100mm high. Primer pairs for amplification of the cystatin insert were designed in various ways. The primer pair which ultimately proved most useful was designed to be complementary to the 5' and 3' ends of the papaya cystatin nucleotide sequence. Primer Premier analysis of a sorghum cystatin sequence provided additional possible primers. A further pair for potential future use was devised based on complementarity to conserved regions on maize cystatins 1 and 2, sorghum, rice, and papaya cystatins. The nucleotide sequence was constructed using the most common monocotyledon codon permutations for each amino acid. Pleurocidin primers were designed to be complementary to 5' and 3' regions of the nucleotide sequence encoding the pleurocidin pre-pro-protein. PCR and RT-PCR protocols for the detection of transgenes and transcript production in putative transgenic plants were developed using these primers. No plants survived selection via the callus route, although some were regenerated via direct embryogenesis. Putative transformed plants were analysed using PCR to test for the presence of integrated transgenes and Southern hybridization to determine transgene copy number. Both types of transgene were reproducibly detectable by PCR in DNA from some immature plants, but results were negative in DNA from those same plants when mature. Southern hybridization analysis detected the cystatin transgene in DNA from immature plants but no transgenes were detected in up to 20 µg DNA from mature plants. Single copy constructions of the transgenes in backgrounds of non-transformed DNA were detectable by both PCR and Southern hybridization analysis. Overall, PCR, RT-PCR and Southern hybridization results indicated that the plants regenerated fell into two categories: non-transformed plants that had survived selection (escapes) and chimaeric individuals with a component of both transformed and non-transformed cells, in which the transgene had probably become diluted during plant development under non-selective conditions. A method for extracting leaf exudates was tested, in conjunction with a cysteine proteinase assay to detect the presence of cystatin transgenes in the intracellular spaces of sugarcane leaves of confirmed transformants. Although it could not be applied within the scope of this project, this assay will prove useful in future work. / Thesis (M.Sc.)-University of Natal, Durban, 2002. Sugarcane--Genetic engineering. Theses--Botany.
2	The development of an in situ hybridisation technique to determine the gene expression patterns of UDP-Glucose dehydrogenase, pyrophosphate-dependent phosphofructokinase and UDP-Glucose pyrophosphorylase in sugarcane internodal tissues Ramoutar, Rakeshnie 12 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: The cellular expression of the enzymes implicated in regulating sucrose metabolism and accumulation in sugarcane is poorly understood. The present study was therefore aimed at the development of an in situ hybridisation (ISH) technique to study differential gene expression among the various cell types of the sugarcane culm. This technique in conjunction with northern and western blotting was then used to determine the sites of cellular and tissue specific expression of the cytosolic enzymes, UDP-Glc dehydrogenase, pyrophosphate dependent phosphofructokinase and UDP-Glc pyrophosphorylase, involved in sucrose metabolism. This study revealed that the determination of the influencing parameters associated with the development of an ISH protocol was essential for the successful detection of the endogenous RNA sequences in sugarcane internodal tissues. The parameters that were investigated included the type of embedding medium, duration of fixation period, pre-treatment procedures and hybridisation temperature. It further revealed that fresh internodal tissue sections, fixed for a period of 24 h and thereafter exposed to pre-treatment and hybridisation, facilitated the analysis of cytological gene expression at all stages of sugarcane development. The second part of this study revealed very localised transcript expression for UDP-Glc DH, PFP and UGPase in the different internodal tissue and cell types. The UDP-Glc DH and UGPase transcripts were localised to the phloem elements, whilst xylem tissue only expressed the UDP-Glc DH transcript. Transcripts of UDP-Glc DH, PFP and UGPase were all expressed in the parenchyma cells that were associated with the vascular bundles and the stem storage compartment, suggesting that the parenchyma cells distributed throughout the stem in the different tissue types complement each other in function for the purposes of phloem loading, unloading and assimilate transport processes. Complimentary northern and western hybridisations demonstrated that internode 7 represents a shift in the sink from utilisation to storage. This is evident by the observed decline in both the relative transcript and protein abundances of UDP-Glc DH, PFP and UGPase at this stage of development. The relative mRNA and protein abundances for the three enzymes showed a similar trend. Higher levels of the gene transcripts and translated products were observed in the younger sucrose importing tissues, than in the older sucrose accumulating internodes. At a cellular level, it was found that the sites of cellular UDP-Glc DH, PFP and UGPase expression differed marginally. Whilst UDP-Glc DH was expressed in the phloem, xylem and parenchyma cells of the vascular complex and in storage parenchyma cells, PFP was expressed exclusively in parenchyma cells that were associated with the vascular bundles and those serving a storage function in the stem pith and UGPase was found to be localised in the phloem and parenchyma of the vascular bundles and the storage parenchyma cells. Such findings have demonstrated an increase in resolution with which gene expression can be examined at a cellular level. Hence, the results from this study have demonstrated that the knowledge of metabolic compartmentation between different tissue and cell types is a requisite to understanding the function(s) of individual enzymes within complex structures such as the sugarcane culm. / AFRIKAANSE OPSOMMING: Die sellulêre lokalisering van die ensieme wat geïmpliseer word in die regulering van sukrose metabolisme is onbekend. Met dit in gedagte, was hierdie studie gefokus op die ontwikkeling van 'n in situ hibridisasie (ISH) tegniek om differensiële geenuitdrukking in die verskillende seltipes van die suikerrietstingel te ondersoek. Hierdie tegniek, tesame met RNA-en proteïen gel blots, is volgens aangewend om die areas van sellulêre-en weefselspesifieke uitdrukking van die sitosoliese ensieme UDP-glukose dehydrogenase, pirofosfaat-afhanklike fosfofruktokinase en UDP-glukose pirofosforilase, wat almal betrokke is by sukrosemetabolisme, te bepaal. Dit het duidelik geword gedurende die studie dat die bepaling van die optimale parameters van die ISH protokol vir suikerriet van deurslaggewende belang sou wees vir die opsporing van endogene RNA volgordes. Die parameters wat ondersoek is het ingesluit die tipe inbeddingsmedium, die tydsduur van fiksering, vooratbehandelings- en hibridisasiemetodes. Dit het duidelik geword dat vars internodale weefselsnitte wat vir 24 h gefikseer is en daarna voorafbehandeling en hibridisasie ondergaan het, die bepaling van geenuitdrukking tydens alle fases van suikkerrietontwikkeling moontlik gemaak het. Die tweede fase van hierdie studie het aangetoon dat al drie ensieme spesifiek gelokaliseerde uitdrukkingspatrone gehad het in verskillende internodale weefsels en seltipes. Al drie gene is konstitutief uitgedruk in internodes. Die UDP-glukose dehydrogenase en UDP-glukose pirofosforilase transkripte is gelokaliseer na die floeëm elemente, terwyl xileem slegs die UDP-glukose dehydrogenase transkripte bevat het. Al die gene is in die parenchiemselle uitgedruk wat geassosieer is met die vaatbondels en die stingel stoorkompartement, wat moontlik beteken dat die parenchiem selle wat deur die stingel versprei is 'n sentrale netwerk vorm wat direk of indirek koolstofassimileringsprosesse beïnvloed. RNA-en proteïen gel blots op dieselfde internodes het gewys dat internode sewe 'n verskuiwing, van koolstofverbruik na berging, verteenwoordig. Dit word gerllustreer deur die afname in beide transkrip en proteïen vlakke van die drie ensiem in hierdie stadium van ontwikkeling. Alhoewel beide mRNA en proteïen vlakke vir al die ensieme 'n soortgelyke tendens getoon het, het die sellulêre uitdrukking van die ensieme volgens ISH verskil, wat die krag van die tegniek illustreer. Die resultate van hierdie studie het gedemonstreer dat begrip van die kompartementalisasie van metabolisme tussen verskillende weefsel-en seltipes 'n voorvereiste is om die funksie/s van individuele ensieme in komplekse strukture soos die suikerrietstingel te bepaal. Sugarcane -- Genetic engineering Plant hybridization In situ hybridization
3	An investigation into the proteolytic degradation of antimicrobial peptides by plant extracts and localisation of pleurocidin in transgenic saccharum hybrid species. Goredema, Wadzanayi Patience. 21 October 2013 (has links) Two cationic antimicrobial peptides, ESF I-GR7, and pleurocidin, were assessed for their stability in plant intercellular fluid, the targeted locale for their expression in transgenic plants. Incubation of ESFI-GR7 and pleurocidin with intercellular fluid (ICF) extracted from sugarcane, tomato and tobacco leaves reduced their biotoxicity towards various pathogens, namely Camobacterium mobile DMSO and Xanthomollas campestris. It was concluded that it may be necessary to modify the aminoacid structures of the peptides in order to ensure that endogenous proteases would not degrade the peptides once expressed in a transgenic environment. The presence of pleurocidin was detected in transgenic sugarcane transformed (in a previous study) with pleurocidin gene cloned into the pUBI 510 plasmid. ICF was extracted from four month old transgenic Saccharum hybrid species (sugarcane). Western blotting verified the presence of the transgenic protein in crude protein extracts. Immunogold labelling and transmission electron microscopy were performed to investigate the localisation of transgenic pleurocidin. The peptide was localized predominantly in the intercellular spaces and cell wall sugarcane leaves. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 2001. Microbial peptides. Sugarcane--Genetic engineering. Theses--Biochemistry.
4	The potential use of sugarcane varieties for the identification of genetic markers. Barnes, Julie Megan. 14 January 2014 (has links) The use of genetic markers that are linked to specific traits in sugarcane has the potential to increase the efficiency of the selection of improved varieties. Conventionally, markers are identified by analysing the segregation of potential markers and traits in the progeny of single crosses. However, this approach is not practical for sugarcane breeding programmes where replicated, well characterized progenies do not exist. The objective of this project was to investigate the potential of using commercial varieties for identifying markers associated with some of the important traits in sugarcane. This approach would be far more effective than dealing with single progenies since the traits of commercial varieties have already been characterized. The DNA of fifty commercial varieties of sugarcane was amplified by RAPD PCR using forty-one arbitrary decamer primers. Analysis of the resulting banding profiles, obtained by agarose gel electrophoresis, yielded fifty-four reliable polymorphic fragments. Two approaches were used to identify putative markers linked to the traits of resistance to eldana, sugarcane mosaic virus, and smut: (1) a correlation approach which attempted to identify whether the presence of any polymorphisms could be used to imply the existence of a particular phenotypic state, and (2) multiple regression analysis, in order to determine whether polymorphisms could be used to predict the performance of the varieties for each of the traits. Both approaches appeared to identify associations between polymorphisms and the traits, although multiple regression analysis yielded the most informative results and was able to assign statistical values to the associations. Using multiple regression, the best predictive model was obtained for sugarcane mosaic virus resistance. This model consisted of four polymorphisms and had an r² of 0.40l. By dividing the resistance ratings into three groups (resistant, intermediate and susceptible), 52% of the varieties were correctly classified and only 2% of the varieties were predicted in opposite groups (i .e. predicted susceptible when actually resistant, and vice versa). The predictive model for eldana resistance consisted offour polymorphisms and had an r² of 0.347. This model classified 30% of the varieties in the correct group of three while none of the varieties were predicted in opposite groups. The predictive model for smut resistance consisted of three polymorphisms and had an r² of 0.316. This model classified 30% of the varieties in the correct group of three while 2% of the varieties were predicted in opposite groups. Further analysis of sugarcane varieties using additional polyrnorphisrns has the potential to identify markers linked to important traits. These markers could be used for marker-assisted selection to increase the efficiency of selecting for improved sugarcane genotypes for commercial release. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 1996. Sugarcane--Breeding. Sugarcane--Genetics. Sugarcane--Genetic engineering. Theses--Botany.
5	Comparision of two promoters driving transgene expression in water-stressed sugarcane. Cassim, Tasmien Nadine. January 1999 (has links) For the expression of transgenes in plant cells, appropriate promoter sequences have to be introduced upstream of the gene to ensure efficient transcription. Tissue- or signal-responsive promoters are in high demand in practical plant biotechnology. The present study sought to characterise the activities of two promoters in sugarcane, namely the UBI (ubiquitin) promoter and the SUC-1 promoter (UBI linked in tandem to the cauliflower mosaic virus 35S promoter). It was hypothesised that the activity of UBI would be maintained or even increased under conditions of environmental stress, since it is well documented that ubiquitin is a stress-related protein. A further hypothesis was that SUC-1 might enhance overall gene expression since the CaMV 35S component is a constitutive promoter widely and successfully used in plant transformation. Plants of the sugarcane variety NC0310, containing the cry1A(c) (Bt) gene from Bacillus thuringiensis, were used as models in a system in which the plants were stressed by withholding water supply in a controlled manner. Since large numbers of clones of both transgenic and wild-type plants were needed for the water stress and expression experiments, three micropropagation techniques, namely, shoot tip-, callus- and node culture, were optimised and compared. The objective was to propagate genetically stable plants rapidly. Compared to shoot tip culture, node and callus culture proved slow and inefficient. Shoot tip culture was thus chosen as the most suitable for the regeneration of experimental material. Relative Water Content (RWC) determination, leaf elongation measurements and Infra Red Gas Analysis (IRGA) were compared in order to find the most appropriate method of measuring plant water status. In addition to being destructive, no observable differences were evident between the control (non-stressed) and water-stressed plants when using RWC as a measure. Results obtained from leaf elongation measurements compared favourably to the more sophisticated IRGA readings, showing that leaf elongation is as sensitive a measure of water stress. On the basis of preliminary studies with untransformed plants using the latter two techniques, water regimes for stress-induction in the final experiments were designed. Leaf elongation measurements, which are simple and non-destructive, were ultimately chosen to measure plant water status. In the final water stress experiment non-transgenic NCo310 and clonal populations of six transformants were used (three containing the UBI promoter; three the SUC-1 promoter). Exactly half of the plants of each type were stressed by withholding water supply, while the other half (controls) were watered manually twice a day. Leaf elongation measurements were made at the same time daily on the third youngest leaf of 6 plants from each population per treatment. At the same time, leaf samples were taken daily for molecular analysis. The stress regime led to marked differences in leaf elongation between control and water-stressed plants. In terms of physiological response (leaf rolling and senescing), plants containing the SUC-1 promoter appeared least affected. The reverse transcription-polymerase chain reaction (RT-PCR) and Northern hybridisation were used to assay UBI and SUC-1 activity. RT-PCR revealed that both promoters drove Bt gene expression in controls and experimentals throughout the stress period, although differences in signal intensity were not observed. The extent of expression occurring in each type of plant was revealed in Northern blots probed with two genic sequences (1) the transgene and (2) sugarcane EST ME42, homologous to heat shock protein 82 in rice. Individual transformants showed overall levels of transgene expression that were variable, possibly due to insert position in the plant genome, as well as variations in relation to the application of stress. SUC-1 seemed superior to UBI in terms of driving transgene expression under stressful environmental conditions, since UBI promoter activity appeared to decrease under stress, while SUC-1 promoter activity remained constant. In addition to the expected 2.0 kb Bt transcript, transcripts of smaller than expected size were also obtained, leading to the suggestion of premature polyadenylation signals in the coding region of the wild-type Bt234 gene. Upon inspection of the transgene sequence, a number of motifs rarely present in plant genes were observed, namely A/T rich sequences, ATTTA motifs and numerous potential polyadenylation sites. / Thesis (M.Sc.)-University of Natal, Durban, 1999. Sugarcane--Genetic engineering. Transgenic plants. Theses--Botany. Promoters (Genetics)
6	Manipulation of pyrophosphate fructose 6-phosphate 1-phosphotransferase activity in sugarcane Groenewald, Jan-Hendrik 03 1900 (has links) 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. Dissertations -- Plant biotechnology Theses -- Plant biotechnology Sugarcane -- Biotechnology Pyrophosphates Sugarcane -- Genetic engineering
7	Marker assisted breeding in sugarcane : a complex polyploid Butterfield, Michael Keith 03 1900 (has links) Thesis (PhD (Genetics))—University of Stellenbosch, 2007. / Association analysis was used to improve the efficiency of breeding sugarcane varieties for the negatively correlated traits of resistance to sugarcane smut and the eldana stalk borer. 275 RFLP and 1056 AFLP markers were scored across a population of 77 genotypes representing the genetic variation present within the SASRI breeding programme. Genetic diversity analysis did not detect significant structure within the population. Regression analysis identified 64 markers significantly associated with smut rating and 115 markers associated with eldana rating at r2 > 6.25%. Individual markers with the largest effects explained 15.9% of the phenotypic variation in smut rating and 20.2% of the variation in eldana. Five markers were significantly associated with both smut and eldana. In each case the marker effect was negatively correlated between the two traits, suggesting that they are genetically as well as phenotypically negatively correlated. Theses -- Genetics Dissertations -- Genetics Sugarcane -- Breeding Sugarcane -- Biotechnology Sugarcane -- Genetic engineering Genetic markers
8	Genetic manipulation of the cell wall composition of sugarcane Bekker, Jan P. I. 03 1900 (has links) In order to understand and manipulate carbon flux to sucrose one needs to consider not only its biosynthetic pathways, but also the competing sinks for carbon in various parts of the plant and at different stages of development. The cell wall and sucrose is known to be the major sinks for carbon in young and mature tissues of sugarcane. UDP-Glucose is a central metabolite in the synthesis of both sucrose and most of the cell wall polysaccharides (including cellulose, hemicellulose and pectic polymers) and manipulation of the flux into either of the cell wall components could therefore cause an increase of flux toward one or more of the competing sinks. In the present study UDP-Glucose dehydrogenase (UGD) activity was chosen for down regulation as it catalyzes the rate limiting step in the biosynthesis of the precursors of both hemicellulose and pectin, a major competing sink for assimilated carbon. Transgenic sugarcane lines with repressed UGD activity showed significantly increased sucrose accumulation in all internodes which was highly correlated with reduced UGD activity. Sucrose phosphate synthase had increased activation which suggests an alteration in carbon flux toward sucrose. The reduction of carbon flux through UGD was compensated for by an increase in the activity of the myo-inositol oxygenation pathway (MIOP), an alternative pathway for the synthesis of cell wall matrix precursors. The increased activity of the MIOP resulted in increased total uronic acids and pentoses in the cell wall. Total cell wall glucose was also increased which is a further indication of altered carbon metabolism. Dissertations -- Plant biotechnology Theses -- Plant biotechnology Sugarcane -- Genetic engineering Plant cell walls
9	Increasing cellulosic biomass in sugarcane Ndimande, Sandile 04 1900 (has links) Thesis (PhD)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Increased demand of petroleum, declining fossil fuel reserves, geopolitical instability and the environmentally detrimental effects of fossil fuels have stimulated research to search for alternative sources of energy such as plant derived biofuels. The main feedstocks for production of first generation biofuels (bioethanol) are currently sucrose and starch, produced by crops such as sugarcane, sugarbeet, maize, and cassava. The use of food crop carbohydrates to produce biofuels is viewed as competing for limited agronomic resources and jeopardizing food security. Plants are also capable of storing sugars in their cell walls in the form of polysaccharides such as cellulose, hemicelluloses and pectin, however those are usually cross-linked with lignin, making their fermentation problematic, and are consequently referred to as lignocellulosics. Current technologies are not sufficient to degrade these cell wall sugars without large energy inputs, therefore making lignocellulosic biomass commercially unviable as a source of sugars for biofuel production. In the present study genes encoding for enzymes for cellulosic, hemicellulosic and starch-like polysaccharides biosynthesis were heterologously expressed to increase the amount of fermentable sugars in sugarcane. Transgenic lines heterologously expressing CsCesA, encoding a cellulose synthase from the marine invertebrate Ciona savignyi showed significant increases in their total cellulose synthase enzyme activity as well as the total cellulose content in internodal tissues. Elevation in cellulose contents was accompanied by a rise in hemicellulosic glucose content and uronic acid amounts, while total lignin was reduced in internodal tissues. Enzymatic saccharification of untreated lignocellulosic biomass of transgenic sugarcane lines had improved glucose release when exposed to cellulose hydrolyzing enzymes. Calli derived from transgenic sugarcane lines ectopically expressing galactomannan biosynthetic sequences ManS and GMGT from the cluster bean (Cyamopsis tetragonoloba) were observed to be capable of producing a galactomannan polysaccharide. However, after regeneration, transgenic sugarcane plants derived from those calli were unable to produce the polymer although the inserted genes were transcribed at the mRNA level. While the ectopic expression of Deinococcus radiodurans amylosucrase protein in the cytosol had a detrimental effect on the growth of transgenic lines (plants showed stunted growth through the 18 months growth period in greenhouse), contrastingly targeting the amylosucrase protein into the vacuole resulted in 3 months old transgenic lines which were having high maltooligosaccharide and soluble sugar (sucrose, glucose and fructose) levels in leaves. After 18 months growing in the greenhouse, the mature transgenic lines were morphologically similar to the untransformed lines and also contained comparable maltooligosaccharide and soluble sugar and starch amounts. The non-biosynthesis of galactomannan and amylose polysaccharides in the matured transgenic plants may be due to post-transcriptional protein processing and or protein instability, possibly explainable by other epigenetic mechanisms taking place to regulate gene expression in the at least allo-octaploid species of sugarcane under investigation in this study. Sugarcane -- Genetic engineering Biofuel production Lignocellulosic biomass saccharification Biomass energy UCTD Theses -- Genetics Dissertations -- Genetics
10	Promoters for sugarcane transformation : isolation of specific sequences and evaluation of rolC. Groenewald, Sarita. 23 December 2013 (has links) Increasing the sucrose yield and the disease resistance of plants are two major objectives of the transgenic sugarcane plant programme in South Africa. The sugarcane culm has thus been identified as one of the main target areas for transgene expression. A shortage of reliable promoter elements as well as patent limitations have necessitated the isolation of promoters that are preferentially expressed in the sugarcane culm. In the present study two different approaches were followed to isolate such promoters, and the bacterial promoter, rolC, was evaluated for tissue-specific expression in sugarcane. Differential display is a non-directed technique that was used to identify genes that are differentially expressed in the mature sugarcane culm. The original method was modified, and four putative culm-preferential fragments were isolated. Sequence and hybridisation analyses revealed that these fragments were false positives, and could therefore not be used to obtain a culm-specific promoter. Activity of the Agrobacterium rolC promoter was evaluated by analysing expression patterns of two reporter genes in the mature culm of transgenic sugarcane plants. Nucleic acid analyses indicated that the foreign DNA was incorporated into the sugarcane genome, and that mRNA transcripts were produced. Histochemical analysis was done to visualise rolC-driven GUS and GFP expression in the mature sugarcane culm. In both cases the reporter gene expression was restricted to the vascular bundles and specifically to the phloem. A directed approach was followed to isolate the gene and subsequently the promoter of the β-subunit of pyrophosphate-dependent phosphofructokinase (PFP-β). An incomplete cDNA clone was obtained from a mature culm cDNA library, and was used for the screening of a sugarcane genomic library. Two clones containing different parts of the PFP-β gene were isolated. A Deletion Factory™ system was used to analyse the clone containing the 5' end of the gene. The first five exons and 1747 bp of the 5' flanking region of the gene were sequenced. Preliminary activity analysis of the promoter region was done by constructing two expression vectors, and analysing transient GUS expression in sugarcane callus. Results indicated that the promoter is capable of driving foreign gene expression in callus. Transient expression levels were lower than that of the maize Ubi-1 promoter. Further analysis of the 5' flanking region will be done to establish whether cis-acting elements outside the analysed area have an influence on the activity of the promoter. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1997. Sugarcane. Sugarcane--Breeding. Andropogoneae. Sugarcane--Genetics. Sugarcane--Genetic engineering. Sugarcane--Research--South Africa. Theses--Botany.

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