5% However, further above 3% salt concentration, strain was grow

5%. However, further above 3% salt concentration, strain was grown without production of antibiotic. BCI-1 secreted the antibiotic in wide range of pH 6–9, while poor growth was evident at pH values below pH 6.0. The maximum growth as well as antimicrobial compound production was obtained at pH 9. The result strongly depicts the alkaline nature of

organism which supports the previous reports [18], [25] and [26]. The Target Selective Inhibitor Library solubility dmso S. werraensis was found to be in mesophilic in nature as it shows narrow range of incubation temperature for relatively good growth and antibiotic production. S. werraensis secreted antibiotic after 7 days of incubation at 30 °C which was found optimum for maximum growth and antibiotic production ( Fig. 1). It has been reported that the environmental factors like temperature, pH, salt concentration and incubation have profound influence on antibiotic production [27], [28] and [29]. Production of antibiotic was found to be highest at pH 9, whereas at pH 10 antibiotic production was completely depleted. The results are comparable with some Streptomyces species recorded to produce antibiotics against bacteria, fungi and yeast at alkaline see more Ph [18]. The results are in contrast to the result reported using Streptomyces sp. ERI-3 for antimicrobial production [30]. Our findings supports fact that generally

alkaline environment is more suitable for the growth of Streptomyces and thus production of antimicrobial compound [16]. Antibiotic production was optimum

at 2.5% NaCl with in significant decrease at 3 and 4%. The strain of Saha and group reported that the antimicrobial potential of actinomycetes isolate selleck chemicals llc grew in the presence of 20% (w/v) NaCl, while 5% salt concentration was found to be optimum for antibiotic production [31]. S. werraensis secreted the antibiotic with optimum temperature at 30 °C. This temperature range is reported as adequate for good production of secondary metabolites is narrow temperature range for example, 5–10 °C ( Table 3 and Table 4). The FT-IR spectrum of the partially purified antimicrobial compound produced by S. werraensis, showed 96% structural similarity with that of the Erythromycin A (screened form the Library match) ( Fig. 2). In HPLC analysis, two peaks were found to be merged with that of standard after merging the two chromatograms. Further test chromatogram was screened for the library match build in Shimadzu HPLC (Fig. 3a and b). On the basis of the standard erythromycin and standard build in library for identification of the antimicrobial agent, it could be stated that the antimicrobial compound is suggestive of being belonging to erythromycin antibiotic. For partial purification, separation of antibiotic has been tried by thin-layer chromatography using a solvent system of chloroform and methanol (24:1, v/v) [32] and [33].

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