Production and characterization of poly-β-hydroxybutyrate (PHB) polymer from Aulosira fertilissima

Biopolymers such as polyhydroxyalkanoates (PHAs) are a class of secondary metabolites with promising importance in the field of environmental, agricultural, and biomedical sciences. To date, high-cost commercial production of PHAs is being carried out with heterotrophic bacterial species. In this study, a photoautotrophic N-2-fixing cyanobacterium, Aulosira fertilissima, has been identified as a potential source for the production of poly-beta-hydroxybutyrate (PHB). An accumulation up to 66% dry cell weight (dcw) was recorded when the cyanobacterium was cultured in acetate (0.3%) + citrate (0.3%)-supplemented medium against 6% control. Aulosira culture supplemented with 0.5% citrate under P deficiency followed by 5 days of dark incubation also depicted a PHB accumulation of 51% (dcw). PHB content of A. fertilissima reached up to 77% (dcw) under P deficiency with 0.5% acetate supplementation. Optimization of process parameters by response surface methodology resulted into polymer accumulation up to 85% (dcw) at 0.26% citrate, 0.28% acetate, and 5.58 mg L-1 K2HPO4 for an incubation period of 5 days. In the A. fertilissima cultures pre-grown in fructose (1.0%)-supplemented BG 11 medium, when subjected to the optimized condition, the PHB pool boosted up to 1.59 g L-1, a value similar to 50-fold higher than the control. A. fertilissima is the first cyanobacterium where PHB accumulation reached up to 85% (dcw) by manipulating the nutrient status of the culture medium. The polymer extracted from A. fertilissima exhibited comparable material properties with the commercial polymer. As compared with heterotrophic bacteria, carbon requirement in A. fertilissima for PHB production is lower by one order magnitude; thus, low-cost PHB production can be envisaged.