Biopolymer gene discovery and characterization using metagenomic libraries

Ohlhoff, Colin Walter

12 1900

Thesis (MSc (Genetics. Institute of Plant Biotechnology))--Stellenbosch University, 2008. / Traditional methods used for the discovery of novel genes have previously relied upon the ability to culture the relevant microbes and then demonstrate the activity of a specific enzyme. Although these methods have proved successful in the past, they severely limit our access to the genomes of organisms which are not able to be cultured under laboratory conditions. It was therefore the aim of this project to use metagenomic strategies for the identification of novel polymer-producing genes with the prospect of commercial exploitation. In this study, soil-derived metagenomic libraries were functionally screened for potential -glucan producing clones using aniline blue staining. Positive reacting clones were selected and sequenced. Initial sequencing revealed a gene with high homology to previously described glucan synthases, the products of these genes all having significant industrial value. The clone was transformed into a suitable bacterial host, cultured and allowed to produce the polymer of interest. The polysaccharide was purified and subjected to various chemical analyses so as to confirm its monosaccharide composition. Data suggests that this polymer is composed mainly of glucose units and that it may be secreted out of the cell. Purification of the active enzyme was attempted using classical protein purification methods with faint activity being detected using Native polyacrylamide gel electrophoresis (PAGE). Further attempts to demonstrate activity were made through the construction of a GST (glutathione S-transferase) tagged fusion protein. The second part of this study focuses on the construction and screening of a metagenomic DNA library from whey, a by-product of the cheese manufacturing process. It was envisaged that this could provide a resource for the identification of high value polymers when lactose is provided as a sole carbon source. The library was screened for function using Congo Red for the detection of extra-cellular polysaccharides.

Metagenomics

Metagenomic libraries

Beta glucans

Functional screening

Biopolymer gene discovery

Theses -- Plant biotechnology

Dissertations -- Plant biotechnology

Biopolymers

Genetics

Institute for Plant Biotechnology

The analysis and reduction of starch in sugarcane by silencing ADP-glucose pyrophosphorylase and over-expressing β-amylase

Ferreira, Stephanus Johannes

12 1900

Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2007. / Sugarcane is cultivated because of the high levels of sucrose it stores in its internodes. Starch metabolism has been a neglected aspect of sugarcane research despite the problems caused by it during sugarcane processing. Currently there is no information available on the starch content in different South African commercial sugarcane varieties. This project had two main aims of which the first was to determine the starch content in the internodal tissues of six commercial sugarcane varieties. The activities of ADP-Glucose Pyrophosphorylase (AGPase) and β- amylase were also determined. The second aim of the project was to manipulate starch metabolism in sugarcane using transgenesis. To achieve this, transformation vectors for the down-regulation of AGPase activity and over-expression of β-amylase activity were designed. These vectors were then used to transform sugarcane calli and the results were analysed in suspension cultures. Starch levels in sugarcane internodal tissue increased more than 4 times from young to mature internodes. There were also large differences between varieties. When mature tissues of different varieties were compared, their starch concentration varied between 0.18 and 0.51 mg g-1 FW, with the majority of the varieties having a starch concentration between 0.26 and 0.32 mg g-1 FW. NCo376’s starch concentration was much lower than the rest at 0.18 mg g-1 FW and N19’s was much higher at 0.51 mg. g-1 FW. There was also a very strong correlation between starch and sucrose concentration (R2 = 0.53, p ≤ 0.01) which could be due to the fact that these metabolites are synthesized from the same hexose-phosphate pool. No correlation was evident between starch concentration and AGPase activity. This was true for correlations based on either tissue maturity or variety. β-amylase activity expressed on a protein basis was almost 5 times higher in the young internodes compared to mature internodes, suggesting that carbon might be cycled through starch in these internodes. AGPase activity in the transgenic suspension cultures was reduced by between 0.14 and 0.54 of the activity of the wild type control. This reduction led to a reduction in starch concentration of between 0.38 and 0.47 times that of the wild type control. There was a significant correlation between the reduction in AGPase activity and the reduction in starch (R2 = 0.58, p ≤ 0.05). β-amylase activity in the transgenic suspension cultures was increased to 1.5-2 times that of the wild type control. This led to a reduction in starch concentration of between 0.1 and 0.4 times that of the wild type control. Once again the increase in β-amylase activity could be correlated to the reduction in starch concentration of the transgenic suspension cultures (R2 = 0.68, p ≤ 0.01). In both experiments there was no significant effect on sucrose concentration.

Sugarcane

ADP-Glucose pyrophosphorylase

Beta amylase

Dissertations -- Plant biotechnology

Theses -- Plant biotechnology

Sugarcane -- Biotechnology

Starch -- Synthesis

β-amylase

ADP-glucose pyrophosphorylase

Investigating the role of pyrophosphate fructose 6-phosphate 1-phosphotransferase in phloem loading

Smith, Marthinus Luther

12 1900

Thesis (MSc (Genetics. Plant Biotechnology)) --Stellenbosch University, 2008. / The main aim of the work presented in this thesis was to further our understanding of the role of Pyrrophosphate: fructose 6-phosphate 1-phosphotransferase (PFP) in sugarcane, by specifically investigating its potential contribution to phloem metabolism. PFP activity in sugarcane internodal tissue is inversely correlated to sucrose content across varieties that differ in their sucrose accumulation abilities. This apparent correlation is in contrast to previous studies that suggest PFP plays an insignificant role in metabolism. In the first part of this study an immunological characterisation of the two subunits of sugarcane PFP was conducted to establish whether it differ significantly from other plant species in terms of size and distribution. Both the alpha and beta subunit appears to be approximately sixty kilo Daltons in size and uniform in their relative distribution to each other in the various plant organs of sugarcane. Although the observed alpha subunit size is less than that predicted this could be explained at the hand of post translational modification, in essence the sugarcane PFP subunits appear similar than that described for other plants especially that of tobacco which was employed as a model system later on in this study. The only direct way to investigate PFP’s contribution to phloem metabolism is to alter its activity by recombinant DNA technologies. Therefore, in the second part of the study transformation systems were designed for both the constitutive and phloem specific downand up-regulation of PFP activity. For the down-regulation of activity a post transcriptional gene silencing system, i.e. a complementary strand intron hairpin RNA (ihpRNA) silencing system, was employed. A partial sequence of the PFP-beta subunit was isolated and used in vector construction. For the over-expression the Giardia lamblia PFP gene was used. The model plant tobacco was employed to investigate PFP’s effect on phloem metabolism and transport of assimilate. Transgene insertion was accomplished by means of Agobacterium mediated transformation and tissue specific manipulation of PFP activity was confirmed by in situ activity staining.

Pyrophosphate

Phloem metabolism

Phosphotransferase

Sugarcane genetics

Theses -- Plant biotechnology

Dissertations -- Plant biotechnology

Plant cells and tissues

Vascular system of plants

Sugarcane -- Biotechnology

Genetics

Institute for Plant Biotechnology