Abstract:
Marine microorganisms are of great interest as novel and rich sources of biologically active products. The micro-organisms living in both sea water and sand must be able to survive and grow under harsh conditions. Due to these adaptations, the metabolites produced by marine micro-organisms possess unique features and they serve as promising choices for many different biotechnological applications. The aforesaid micro-organisms are referred to as ‘microbial treasures’ at present.
In this study, preliminary screening for different culturable bacteria present in shoreline sand was carried out and tested for different biological activities. Morphologically different bacterial isolates were identified using the standard morphological and biochemical characterization procedures in microbiology. The results indicated that the majority of the isolates belong to the genus Bacillus and the others were the species of Micrococcus, Aerococcus, Pseudomonas, and Staphylococcus. The degradation of two dyes, crystal violet and saffranin were tested and the degradation was only observed for crystal violet with two Bacillus isolates i.e. SSMA-15 and SSPC-16. Some isolated bacteria accumulated the dyes in their cells. The highest indole acetic acid (IAA) production was observed for the Bacillus-SSPC-11. Antagonistic effect against all three selected bacteria, i.e. S. aureus, B. subtilis and E. coli was only shown by the Pseudomonas-SSMA-7. Along with the antagonistic effects, it also produced the protease and cellulase enzymes. The bacterial isolate-SSMA-9 belonging to the family Enterobacteriaceae exhibited the highest number of positive activities during this study. It included the production of cellulase, laccase, amylase and protease enzymes and the accumulation of the saffranin and crystal violet dyes. The Bacillus-SSPC-3 showed positive production of three enzymes; amylase, protease and cellulase. Staphylococcus-SSPC-12 has the ability to accumulate the two dyes in addition to the production of the two enzymes amylase and protease. Based on the positive activities and produced components, bacterial isolates SSMA-9, SSMA-7 and SSPC-12 were identified as possible bacterial treasures.