Commercial Potential of the Cyanobacterium Arthrospira maxima: Physiological and Biochemical Traits and the Purification of Phycocyanin

Simple Summary Arthrospira maxima is an unbranched, filamentous cyanobacterium rich in important cellular products such as vitamins, minerals, iron, essential amino acids, essential fatty acids, and protein, which has made it one of the most important commercial photoautotrophs. To optimize the growth conditions for the production of target compounds and to ensure profitability in commercial applications, the effects of pH and temperature were investigated. A. maxima has been shown to be tolerant to a range of pH conditions and to exhibit hyper-accumulation of phycoerythrin and allophycocyanin at low temperatures. These traits may offer significant advantages for future exploitation, especially in outdoor cultivation with fluctuating pH and temperature. Our study also demonstrated a new method for the purification of phycocyanin from A. maxima by using by ultrafiltration, ion-exchange chromatography, and gel filtration, producing PC at 1.0 mg center dot mL(-1) with 97.6% purity. Arthrospira maxima is a natural source of fine chemicals for multiple biotechnological applications. We determined the optimal environmental conditions for A. maxima by measuring its relative growth rate (RGR), pigment yield, and photosynthetic performance under different pH and temperature conditions. RGR was highest at pH 7-9 and 30 degrees C. Chlorophyll a, phycocyanin, maximal quantum yield (F-v/F-m), relative maximal electron transport rate (rETR(max)), and effective quantum yield (phi(PSII)) were highest at pH 7-8 and 25 degrees C. Interestingly, phycoerythrin and allophycocyanin content was highest at 15 degrees C, which may be the lowest optimum temperature reported for phycobiliprotein production in the Arthrospira species. A threestep purification of phycocyanin (PC) by ultrafiltration, ion-exchange chromatography, and gel filtration resulted in a 97.6% purity of PC.

Automated summary

Arthrospira maxima is a commercially important filamentous cyanobacterium rich in valuable cellular products. This study investigated the effects of pH and temperature on its growth conditions and demonstrated its tolerance to a range of pH conditions and hyper-accumulation of pigments at low temperatures. The study also introduced a new purification method for the production of phycocyanin from A. maxima.