Strain ST-9 was isolated from toluene-contaminated soil (Samaria, Israel). The draft genome has an estimated size of 4.8 Mb, exhibits an average G+C content of 60.37%, and is predicted to encode 4,183 proteins, including a gene cluster for aromatic hydrocarbon degradation. It is assigned to genomovar 3 of Pseudomonas stutzeri.
The organization and expression of Pseudomonas stutzeri ST-9 genes related to toluene catabolism and porin synthesis was investigated. Toluene-degrading genes were found to be localized in the chromosome close to a phage-type integrase. A regulatory gene and 21 genes related to an aromatics degradation pathway are organized as a putative operon. These proteins are upregulated in the presence of toluene. Fourteen outer membrane proteins were identified as porins in the ST-9 genome. The identified porins showed that the main detected porins are related to the OmpA and OprD superfamilies. The percentage of porins in the outer membrane protein fraction, as determined by mass spectrometry, was 73% and 54% when the cells were cultured with toluene and with glucose, respectively. Upregulation of OmpA and downregulation of OprD occurred in the presence of toluene. A porin fraction (90% OprD) from both cultures was isolated and examined as a toluene uptake system using the liposome-swelling assay. Liposomes were prepared with the porin fraction from a culture that was grown on toluene (T-proteoliposome) or glucose (G-proteoliposome). There was no significant difference in the permeability rate of the different solutes through the T-proteoliposome and the G-proteoliposome.
Isolated toluene-degrading Pseudomonas stutzeri ST-9 bacteria were grown in a minimal medium containing toluene (100 mg·L(-1)) (MMT) or glucose (MMG) as the sole carbon source, with specific growth rates of 0.019 h(-1) and 0.042 h(-1), respectively. Scanning (SEM) as well as transmission (TEM) electron microscope analyses showed that the bacterial cells grown to mid-log phase in the presence of toluene possess a plasmolysis space. TEM analysis revealed that bacterial cells that were grown in MMT were surrounded by an additional "material" with small vesicles in between. Membrane integrity was analyzed by leakage of 260 nm absorbing material and demonstrated only 7% and 8% leakage from cultures grown in MMT compared with MMG. X-ray microanalysis showed a 4.3-fold increase in Mg and a 3-fold increase in P in cells grown in MMT compared with cells grown in MMG. Fluorescence-activated cell sorting (FACS) analysis indicated that the permeability of the membrane to propidium iodide was 12.6% and 19.6% when the cultures were grown in MMG and MMT, respectively. The bacterial cell length increased by 8.5% ± 0.1% and 17% ± 2%, as measured using SEM images and FACS analysis, respectively. The results obtained in this research show that the presence of toluene led to morphology changes, such as plasmolysis, cell size, and formation of outer membrane vesicles. However, it does not cause significant damage to membrane integrity.
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