Optimization of Glucose Oxidase production and excretion by recombinant Aspergillus niger

The interrelation between various process parameters was evaluated for the cultivation of a recombinant Aspergillus niger NRRL 3 (GOD 3-18) in shake flask and bioreactor level. To increase GOx production in submerged culture, yeast extract was added to cultivation medium up to a concentration of 2 g l -1 . Beyond this concentration yeast extract supported only cell growth with a decrease in enzyme production due to the formation of large pellets. For further study of the influence of growth morphology on cell productivity, cultivations in baffled and non-baffled flask were performed. In the case of baffled flasks, cells grew in smaller pellet form which resulted in higher productivity as compared to non-baffled flask. The process was then conducted at bioreactor level for GOx production under controlled pH value. The origin of inoculum was a critical factor in microbial growth. When the spores, obtained directly from stock frozen glycerin culture, were plated only once the growth resulted in micropellet-filamentous form, showing more than two fold increase in GOx production and with a higher excretion rate as compared to pelleted grown cultures. The pelleted growth was observed under the same cultivation conditions when spores were obtained from multi-time platted cultures. The second part of this study was focused on the production of GOx with non-glucose C-sources to overcome the problem of the conversion of the substrate glucose by the produced enzyme. Among nine different mono-sugars tested, fructose and xylose supported cell growth and GOx production. Utilization of fructose increased the final cell mass concentration 2-fold compared to glucose at equivalent concentration, but it resulted in 30 lower final total GOx activity. On the other hand, xylose increased the final cell mass concentration and the final total GOx activity were 3 and 2.5-fold higher, respectively. The suitability of fructose and xylose for GOx production was also studied.