Abstract
Detoxification is essential for the fungal growth in the drug stress environments, and the multidrug transporters play an important role in this process. Here a cerulenin transporter gene (MpMdt, AB206476) was identified from Monascus pilosus. MpMdt mRNA contains 1951 bp and encodes a protein of 559 amino acid residues with 11 trans-membrane domains; and there is no difference in the sequence of MpMdt mRNA between the wild type M. pilosus IFO4520 and its cerulenin resistant mutant MK-1. Up-expression of MpMdt renders the cerulenin resistance of the mutant MK-1. Over-expression of MpMdt could also increase the cerulenin tolerance in the transgenic M. pilosus IFO4520. These results suggested that MpMdt is able to efflux-transport the anti-fungal antibiotic cerulenin and increase the cerulenin resistance of M. pilosus.
Acknowledgements
This work was supported by Japan Society for the Promotion of Science, National Science Foundation of China (30670169), and Science & Technology Project of Guangdong (2006A20101004).