Screening of microalgae for primary metabolites including β-glucans and the influence of nitrate starvation and irradiance on β-glucan production

Βeta-glucans, widespread glucose polymers in mushrooms, yeasts, and bacteria, but rarely found in microalgae, have wide applications and high medicinal and economical potential. Some β-glucans like paramylon from algae-like Euglena gracilis are well investigated, but there is little information about the β-glucan content of microalgae. Therefore, more than 40 species of cultured microalgae have been investigated for composition of their biomass regarding to lipids, carbohydrates including β-glucans and proteins. Most of algae species showed a rather similar biomass composition of about 10 % lipids, 25 % carbohydrates, and 40 % proteins if they have been cultivated in a full medium, rather low light conditions of 50 μmol photons m −2 s −1 , 12/12 h light/dark cycle under aeration and a temperature of 25 ± 2 °C. The content of β-glucans varied between 1.7 and 24.2 % of dry weight, respectively. Two microalgae, Scenedesmus ovalternus SAG 52.80 and Porphyridium purpureum SAG 1380-1d with a yield of more than 20 % of dry weight were identified as the best β-glucan producers under standard cultivation conditions. Culture optimization experiments revealed that enhanced irradiance increased the β-glucan content of Scenedesmus obtusiusculus A 189, a novel green algae isolate, from 6.4 to 19.5 %, but the β-glucan content of the green alga S. ovalternus SAG 52.80 remained unaffected (24.2 vs. 23.3 %). Nitrate starvation enhanced the β-glucan content of S. obtusiusculus A 189 from 16 to 23 % and of S. ovalternus SAG 52.80 from 23.3 to 36.7 %.