High-level production of pullulan and its biosynthesis regulation in Aureobasidium pullulans BL06

Pullulan has many potential applications in the food, pharmaceutical, cosmetic and environmental industries. However, the yield and molecular properties of pullulan produced by various strains still need to be promoted to fit the application needs. A novel yeast-like strain Aureobasidium pullulans BL06 producing high molecular weight (Mw) pullulan (3.3 x 10(6) Da) was isolated and identified in this study. The remarkable Mw of pullulan produced by A. pullulans BL06 was the highest level ever reported thus far. To further regulate the biosynthesis of pullulan in A. pullulans BL06, three gene knockout strains A. pullulans BL06 delta PMAs, A. pullulans BL06 delta mel, and A. pullulans BL06 delta PMAs delta mel, were constructed. The results showed that A. pullulans BL06 delta PMAs could produce 140.2 g/L of moderate Mw (1.3 x 10(5) Da) pullulan after 120 h of fermentation. The highest yield level of pullulan to date could vastly reduce its production cost and expand its application scope and potential. The application experiments in food preservation showed that the moderate-Mw pullulan obtained in this work could reduce the weight loss of celery cabbages and mangos by 12.5% and 22%, respectively. Thus, the novel strains A. pullulans BL06 and A. pullulans BL06 delta PMAs possessed unlimited development prospects in pullulan production at various Mw ranges and pullulan applications in multiple fields.

Automated summary

In this study, a novel yeast-like strain Aureobasidium pullulans BL06 was isolated, producing the highest molecular weight pullulan reported so far. Three gene knockout strains were constructed to further regulate the biosynthesis of pullulan, and one strain produced moderate molecular weight pullulan at the highest yield level to date, reducing production costs and expanding its application scope and potential.