Genetic Diversity and Anti-Oxidative Potential of Streptomyces spp. Isolated from Unexplored Niches of Meghalaya, India.

Streptomyces is genetically and functionally diverse genus known to produce a wide array of phenolics and flavonoids with significant biotechnological applications. 52 isolates belonging to 26 species of Streptomyces collected from Meghalaya, India were analyzed for their genetic diversity using BOX-PCR. Significant inter- and intra- generic diversity was observed among the Streptomyces isolates especially those belonging to S. cacaoi, S. lavendulae, S. olivochromogenes, S. aureus, S. flavovirens. During bioactivity screening of the isolates, S. rectiviolaceus MJM72 recorded the highest DPPH activity (77.13 ± 0.91%) whereas S. antimycoticus MSCA162 showed excellent ABTS radical scavenging activity (99.65 ± 0.41%). On the other hand, S. novaecaesareae MJM58 had the highest (756.4 ± 7.38 µg GAE g-1 fresh weight) phenolic content while S. rectiviolaceus MJM72 was recorded with the highest flavonoid content (69.3 ± 0.12 µg QE g-1 fresh weight). As compared to total flavonoid content, total phenolic content had a stronger correlation with antioxidant activities. HPLC analysis of five selected isolates showed presence of gallic acid and pyrocatechol as predominant phenolics. In case of flavonoids, three isolates showed presence of rutin with S. rochei MSCA130 having the highest rutin content (0.95 µg g-1 fresh weight). The results of this study showed high genetic diversity and antioxidant potential among the Streptomyces isolates.

Prospecting potential of endophytes for modulation of biosynthesis of therapeutic bioactive secondary metabolites and plant growth promotion of medicinal and aromatic plants.

Medicinal and aromatic plants possess pharmacological properties (antidiabetes, anticancer, antihypertension, anticardiovascular, antileprosy, etc.) because of their potential to synthesize a wide range of therapeutic bioactive secondary metabolites. The concentration of bioactive secondry metabolites depends on plant species, local environment, soil type and internal microbiome. The internal microbiome of medicinal plants plays the crucial role in the production of bioactive secondary metabolites, namely alkaloids, steroids, terpenoids, peptides, polyketones, flavonoids, quinols and phenols. In this review, the host specific secondry metabolites produced by endophytes, their therapeutic properties and host-endophytes interaction in relation to production of bioactive secondry metaboloites and the role of endophytes in enhancing the production of bioactive secondry metabolites is discussed. How biological nitrogen fixation, phosphorus solubilization, micronutrient uptake, phytohormone production, disease suppression, etc. can play a vital role in enhacing the plant growth and development.The role of endophytes in enhancing the plant growth and content of bioactive secondary metabolites in medicinal and aromatic plants in a sustainable mode is highlighted.