Abstract
The effect of incorporating plant extract in the culture medium on anti-MRSA activity of Lasiodiplodia pseudotheobromae IBRL OS-64, was investigated in the present study. On disk diffusion assay, the ethyl acetate fungal extract from culture medium supplemented with host plant extract (HPE) of Ocimum sanctum leaves demonstrated good anti-MRSA activity with a diameter inhibition zone of 22.6±0.6 mm. Meanwhile, the minimal inhibition concentration (MIC) values of the extract from YES broth and YES broth incorporated with HPE were 1000 µg/mL and 250 µg/mL, respectively. The MBC values were 8000 µg/mL and 500 µg/mL, respectively. The YES + HPE extracts exerted bactericidal effect against the test bacteria since the MBC/MIC ratio was less than or equal to 4. The time-kill study revealed a 90% of growth reduction of MRSA ATCC 33591 after 16 h exposure to the fungal extract cultured in YES + HPE. Ironically, for fungal extract grown in YES broth, time-kill curve showed a regrowth pattern of bacterial cells after 24 h exposed to the extract. Therefore, the present study suggested that the addition of HPE in the culture medium could enhance the anti-MRSA activity of endophytic fungus, L. pseudotheobromae IBRL OS-64 against MRSA ATCC 33591.
Highlights
The search of a new antibiotic agent is a need due to the emergence of multidrug resistant strains
Disk diffusion has been the main procedures for antimicrobial susceptibility testing in the microbiological laboratories since Bauer Kirby first discovered the methods in the 1960s31
This assay was employed in the present study to access anti-MRSA activity of fungal extracts from fermentative broth and fungal biomass that fermented in Yeast extract sucrose (YES) broth and YES broth + host plant extract (HPE)
Summary
The search of a new antibiotic agent is a need due to the emergence of multidrug resistant strains. Due to emergence of multi drug resistant strains, the search of new potential antimicrobial source is a need. Endophytes have been used as alternative source for bioactive compound production due to their potential benefits. Zhang et al[7] stated that endophytic fungi could produce a large number of bioactive compounds as compared to other microorganisms. Fungal endophytes can produce bioactive substances mimicking their host such as production of taxol by Taxomyces andreanae[8]. Many previous studies reported the potential of endophytic fungi as a source of natural antibiotic drugs. Their study revealed that three compounds had successfully isolated from fungal extract such as emodin, (3R)-5-hydroxymellein and phomalacton exhibited a good antimicrobial activity against several bacteria including Bacillus megaterium
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