Accessing the biotechnological potential of a novel isolated microalga from a semi-arid region of Brazil

• Published in: Food science and technology international p. 10820132231186171
• Main Authors: Lima, Alysson de Sá P, Cahú, Thiago B, Dantas, Danielli M M, Veras, Bruno O, Oliveira, Carlos Y B, Souza, Rayanna S, Moraes, Laenne B S, Silva, Francisca C O, Araújo, Maria I F, Gálvez, Alfredo O, Souza, Ranilson B
• Format: Journal Article
• Language: English
• Published: United States 05.07.2023
• Subjects: Antioxidants; exopolysaccharides; prebiotics; nutraceuticals
• ISSN: 1532-1738
• DOI: 10.1177/10820132231186171

The use of microalgae as a source of food and pharmaceutical ingredients has garnered growing interest in recent years. Despite the rapid growth of the nutraceutical market, knowledge about the potential of bioactive molecules from microalgae remains insufficient. The present study aimed to investigate the biotechnological potential of the green microalga isolated from a semi-arid region of Brazil. The algal biomass was characterized in terms of gross biochemical composition, exopolysaccharide content, enzymatic inhibition capacity, and antioxidant, antibacterial, and hemolytic activities from solvents of different polarities (water, ethanol, acetone, and hexane). biomass had 40% of crude protein content, 25.94% of lipids, and 25.03% of carbohydrates. The prebiotic potential of exopolysaccharides from was demonstrated, which stimulated the growth of and bacteria strains. Moreover, the enzyme inhibition capacity for the proteases chymotrypsin (34.78%-45.8%) and pepsin (16.64%-27.27%), in addition to α-amylase (24.79%) and lipase (31.05%) was confirmed. The antioxidant potential varied between the different extracts, with 2,2-diphenyl-1-picrylhydrazyl sequestration values varying between 17.51% and 63.12%, and those of the 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) method between 6.82% and 22.89%. In the antibacterial activity test, only the ethanolic extract showed inhibition against sp. (at minimum inhibitory concentration [MIC] = 256 µg mL ). This fraction also presented the highest significant levels of hemolysis (31.88%-52.45%). In summary, the data presented in the study suggest the presence of biocompounds with biotechnological and nutraceutical potential in the biomass. Future studies may evaluate the inclusion of this biomass in foods in order to increase their biological value.