Three (Sn-4a, Sn-17a and Sn-19a) of

Three (Sn-4a, Sn-17a and Sn-19a) of the six antifungal bacterial isolates from sewage and canal samples were found to be mesophiles as they showed maximum growth at 37 °C. While the isolates Sn-18a, Sn-20a and Sn-21 appeared thermophiles and aerobic. All the six bacterial isolates were found to be neutrophiles. From these isolates, four (Sn-4a, Sn-18a, Sn-19a and Sn-20a) showed best growth when the cultures were initiated with 5 % inoculum while the remaining two grew best with 1% and 10% of inocula. (Table 1). On the basis of physiobiochemical characterization all the isolates were identified as Bacillus cereus (Table 2).
Antifungal activity of the bacterial isolates against Saccharomyces cerevisiae, was recorded. Growth inhibition zone (GIZ) around the growth of Sn-4a after 24 hrs was observed to be 4mm which increased to 6.25 and 11.5mm after 48 and 72 hours of incubations, respectively. In case of other isolates, no growth inhibition zone was observed after 24hrs but the zones were noticed as 13, 11.5, 18 and 13mm after 48hrs and 18, 13, 19 and 14 mm after 72 hrs of incubation around the growths of Sn-17a, Sn-18a, Sn-19a and Sn-20a, respectively (Table 3, Fig. 1). Only four isolates showed antifungal activity against C. albicans. When filter paper discs loaded with 20μl of 24 hrs incubated cell free cultural fluids were tested against C. albicans, the zones of inhibition around the discs were recorded to be 3.5, 4, 4.25 and 0.00mm. For 96 hrs incubated bacterial cultures, the ZGI measured 4.25, 4.5, 4 and 4 mm for Sn-18a, Sn-19a, Sn-20a and Sn-21a, respectively. When four times concentrated cultural fluids were employed, ZGI measured as 18, 2.85, 13.25 and 0.00 mm for 24hrs incubated cultures of Sn-18a, Sn-19a, Sn-20a and Sn-21a, respectively. Corresponding figures of GIZ for the 96 hrs incubated cultures of sn-18a to sn-21a appeared as to be 20, 31, 18 and 21.5mm, respectively (Table 4, Fig 1).
In recent years, there has been an increasing trend towards identification of more efficient antifungal drugs owing to the increased incidence of fungal infections (Andriole, 2000; Odd, 2003; Mathew and Nath, 2009). The present study indicated that the bacterial isolates have considerable antifungal activity against Saccharomyces cerevisiae. Increases of diameters of the yeast growth inhibition zones around the bacterial cell mass with increase in incubational periods suffest that antifungal bacterial exoproducts had continued to be produced in later phases of the bacterial growth. When Candida sp. was exposed to four times concentrated cell free cultural fluid on Sabouraud agar surface, growth of the yeast was inhibited following more or less the same pattern in terms of bacterial incubation periods as discussed for S. cerevisiae.
Over the last decade, the incidence of fungal infections has increased dramatically and increased incidence of cryptococcosis is reported from all centers with the emergence of AIDS (Chakrabarti & Shivarakash, 2005). Infection due to Candida and Cryptococcus are the most common. These situations necessitate search for novel and more potent antifungal drugs. Although nature of the antifungal compounds produced by the bacteria reported here as well as their mode of actions have not been worked out. Further work on these compounds may throw light on their therapeutic usefulness. It is pertinent here to stress that these antifungal bacteria have been isolated from local environment and their therapeutic or other antimycotic potential may prove more useful as compared to the drugs/ antibiotics sourced from other parts of the world.