• Journals
• CBL
• JMNS
• JIST
• JBTS

This is archived platform of the CBL journal, Readers/Authors should navigate to new site at https://pubs.thesciencein.org/journal/index.php/cbl

ISSN 2347-9825 Search Advance Search All Authors Title Abstract Index terms Full Text Other Journals Title Issue Author Browse By:

Open Access  Subscription Access

Unsaturated fatty acids are one of an important component of our healthy diet as needed for various physiological functions as well as it has medicinal significance. The Gamma linolenic acid (GLA), the pharmaceutically important fatty acid, was isolated from the Antarctic cyanobacetrium, Nostoc_CCC537. The antibacterial potential of GLA was evaluated against Staphylococcus aureus ATCC25923, Pseudomonas aeruginosa ATCC27853, Salmonella typhi MTCC3216, Escherichia coli ATCC25992 and Enterobacter aerogenes MTCC2822. It was observed that GLA production in the cyanobacterium was also regulated by alterations in phosphate or nitrate levels during growth along with temperature. A doubling in the phosphate concentration (116 μM) over that routinely used (58 μM) in the diazotrophic medium, enhanced GLA production 20.5%, while the biomass yield decreased to 7.3% of the control. GLA production, however, decreased to 18% or 23% in 5 mM or 10 mM nitrate, respectively. A downshift in growth temperature to 10^oC from 20^oC enhanced GLA production. It is suggested that the Antarctic cyanobacterium may also act as a source of an antibacterial agent as well as GLA.

Gamma linolenic acid; antimicrobial activity; cyanobacterium; algae; phytochemicals; phycochemistry; extraction; blue green algae;