These are used in the manufacturing fermentation of the active pharmaceutical compounds, such as the antifungal ones, antiviral, anti-cancer, agents of immunosuppressor, insecticides, weed killers, etc. 6 Approaches to the search for and discovery of new antibiotics are generally based on screening of naturally occurring actinomycetes. 2
The objective of the present study was to isolate actinomycetes from the soil of Durg, Chhattisgarh, India, with an ability to produce metabolites having antimycotic property against the fungal pathogens. However, there is not documented information on antifungal activities of Streptomyces sp. isolated from the soil of Raipur, India, as a novel source for the discovery of new bioactive compounds. Such unexplored or under-exploited environments may be crucial for new strains of streptomycetes being wild types showing rich source of useful metabolites. Ibrutinib datasheet Therefore, the study reported herein was undertaken to determine the antifungal potential of Streptomyces against some pathogenic fungi, the taxonomy of the antibiotic producing strain as well as detailed production optimization. Actinomycetes were isolated on starch casein nitrate agar medium by serial dilution method.7 One most promising isolate, MS02, having broad spectrum antimycotic Selleck Icotinib activity, was selected for further study and grown on different agar media such as starch casein nitrate agar, glucose
soybean agar, glucose asparagine, Sabouraud dextrose and yeast extract-malt extract to know which medium stimulates maximum antifungal activity. All media were obtained from Hi-Media, Mumbai. After incubation for 7 days at 28 °C, agar discs of actinomycete growth were made with a sterile cork borer (6 mm) and placed on Sabouraud dextrose agar (SDA) plates (pH 5.6) seeded with the fungal test organisms. After incubation plates were observed for bioactive property after 24 h in case of yeasts and 96 h in case of molds. The antifungal activity of the culture supernatant of the actinomycete in above mentioned liquid media was tested by agar well diffusion method.8 The zone of inhibition (mm) around the
well was determined as antifungal activity. Values are given as mean and standard deviation (SD) of tests performed in triplicate. Candida albicans MTCC 183, C. albicans much MTCC 1346, C. albicans ATCC 10231, C. albicans ATCC 2091, C. albicans MTCC 2512, Penicillium citrinum MTCC 1751, Candida tropicalis ATCC 750, Cryptococcus terreus ATCC 11799, Trichophyton rubrum MTCC 296, Alternaria alternata MTCC 1362, Rhizoctonia oryzae MTCC 2162, Aspergilus terreus DSM 826, Aspergillus niger DSM 63263, A. niger DSM 2182, Aspergillus fumigatus ITCCF 1628, Aspergillus versicolor DSM 1943, Aureobasidium pullulans DSM 2404. Morphological features of the isolate were studied by cover slip method.9 the cover slips were observed under light microscope (1000×) after incubation for one week at 28 °C.