AI Article Synopsis
- A recombinant plasmid, pYL-1, was created to express a tyrosinase gene in E. coli, leading to the production of bacterial melanin through a straightforward isolation and purification process.
- Melanins from bacterial sources and chemical synthesis showed increased UV absorption in the 200-400 nm range, whereas plant and animal-derived melanins exhibited a notable peak at 280 nm, suggesting differences in their composition.
- The presence of bacterial melanin reduced the effectiveness of certain antibiotics on E. coli, indicating a possible interaction between melanin and the antibiotics, though the exact mechanism of this interaction is still unknown.
Article Abstract
A recombinant plasmid, pYL-1, containing a tyrosinase gene whose expression is under the control of a phage T5 promoter and 2 lac operators, was constructed. Escherichia coli JM109 harboring pYL-1 was used for production of bacterial melanin. A simple procedure for the isolation and purification of melanin was developed. The ultraviolet (UV)-visible light absorption spectra of melanin prepared by chemical synthesis and derived from different organisms, including bacteria, a plant and an animal source, were determined. Melanins produced by both bacteria and chemical synthesis showed a steady increase of absorption at wavelengths of UV light ranging from approximately 200-400 nm, while melanin derived either from plant or animal sources showed an additional discrete absorption peak at wavelength 280 nm upon a similar steady increase of absorption. This additional absorption peak could be due to the presence of protein-bound melanins in animal and plant sources while a free form of melanin was obtained from bacteria and chemical synthesis. Analysis of the effect of bacterial melanin on the activity of antibiotics against E. coli revealed that the activities of polymyxin B, kanamycin, tetracycline, and ampicillin were markedly reduced in the presence of melanin, whereas the activity of norfloxacin was not affected. The reduction of the antibacterial activity may result directly from the interaction of antibiotics with melanin. However, the mechanism of this interaction remains to be demonstrated.
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