Summary
A tributyltin chloride (TBTCl)-resistant bacterium,Alteromonas sp. M-1, was isolated from coastal seawater. This bacterium grew in medium containing 125 μM TBTCl. TBTCl added to the medium was taken up by this bacterium, however, the amount of TBTCl in the cellular fraction was low after the logarithmic phase, suggesting the existence of a TBTCl-efflux system. A genetic library was constructed using plasmid vector pUC 19. Three positive clones were obtained, by whichE. coli was transformed to TBTCl resistance. Of the three clones, the shortest fragment fromHindIII-library was analyzed. This fragment was 1.8 kb long and contained one complete open reading frame. The predicted amino acid sequence of this open reading frame had a homologous domain to transglycosylases of bacteriophage andE. coli. TBTCl-tolerant marine bacteria other thanAlteromonas sp. M-1 were obtained from natural seawater to which TBTCl was added. DNA-DNA hybridization was performed between the three cloned fragments fromAlteromonas sp. M-1 and chromosomal DNA of the TBTCl-tolerant bacteria. Some strains hybridized with the fragments and some did not, suggesting that several genes are responsible for TBTCl tolerance.
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Suzuki, S., Fukagawa, T. Tributyltin-resistant marine bacteria: a summary of recent work. Journal of Industrial Microbiology 14, 154–158 (1995). https://doi.org/10.1007/BF01569897
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DOI: https://doi.org/10.1007/BF01569897