Browsing by Author "Rose, Shaunita Hellouise"
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- ItemGenetic engineering and evaluation of Aspergillus niger for heterologous polysaccharase production(Stellenbosch : Stellenbosch University, 2003-03) Rose, Shaunita Hellouise; Van Zyl, Willem Heber; Stellenbosch University. Faculty of Science. Dept. of Microbiology.ENGLISH ABSTRACT: Cellulose and hemicellulose represents the two most abundant groups of renewable polysaccharides known to man. Apart from their presence in plant material, they also contribute to a significant portion of inexpensive readily available material, such as wastes and bypro ducts from forestry / agricultural origin. The chemical composition of plant material varies, but the biomass content consists of approximately 75% carbohydrate polymers (cellulose and hemicellulose) and 25% lignin. The enzymes required for the degradation of cellulose and hemicellulose are collectively called cellulases and hemicellulases. These enzymes have a broad spectrum of industrial applications including the production of fuel ethanol through fermentations, reducing the amount of chlorine required for bleaching in the pulp and paper industry, increasing dough volume in the baking industry, improving digestion and nutritional value of animal feed, increasing clarification and enhancing the filterability of wine, beer and fruit juice, etc. Therefore, a large potential market exists for cellulases and hemicellulases provided their production is economical and the product, authentic. Aspergilli occur in a wide variety of habitats including soil, stored food and feed products and decaying vegetation. The advantages for using A. niger as host for heterologous enzyme production include good protein secretion, industrial fermentation technology dating as far back as 1919, being a non-pathogenic fungus with GRAS status, no special substrate or cultivation requirements, FDA approval of numerous enzymes (homologous and heterologous) produced, etc. In this study an Aspergillus expression vector was constructed using the constitutive glyceraldehyde-3-phosphate dehydrogenase promoter (gpdp) of A. niger and the glucoamylase terminator (glaAT) of Aspergillus awamori. The cDNA copies of the eg! and xyn2 genes of Trichoderma reesei, cbhl-4 of Phanerochaete chrysosporium, man! of Aspergillus aculeatus and xyn3 of Aspergillus kawachii were introduced into the expression vector, respectively. All the plasmids were co-transformed with plasmid p3SR2 to A. niger and transformants selected for stable plasmid integration into the genome of the host. The recombinant enzymes EgI, Xyn2, Cbhl-4, Man! and XynC were successfully expressed and secreted at activity levels of 2300, 8000, 500, 6000 and 900 nkatlml, respectively. The enzymes were produced as functional entities and were subsequently characterized. The EgI, Xyn2 and ManI were evaluated as feed additives for the possible use in the animal feed industry. Improved biomass gain was observed with in vivo studies on poultry. With the possible mass production of heterologous enzymes in mind, a simple medium had to be devised for their inexpensive production. Molasses medium (available from the South African sugar industry) was therefore evaluated and the cultivation conditions optimized for it's possible use as cultivation substrate for A. niger. The evaluation was done on the grounds of EgI and Xyn2 activity produced which was monitored over time. This study highlighted the possible use of A. niger for the heterologous production of enzymes, the use of industrial substrate for cultivation and paved the way for the high level expression of industrially important genes at low cost and a positive environmental impact.