| In both natural and engineered environments, microorganisms grow on mixtures of organics. However, little is known about microbial growth on mixtures, especially in the context of biodegradation. For example, previous research showed that the biodegradation kinetics of Pseudomonas putida F1 growing on mixtures of toluene and phenol were difficult to predict, despite the fact that the metabolic pathway for these substrates is the same.; To investigate the physiological effects of the toluene-phenol mixtures on the growth of P. putida F1, a proteomics approach was utilized. An optimal proteome analysis procedure was developed and the proteomes of Pseudomonas putida F1 grown on either a single substrate (toluene or phenol) or a toluene-phenol mixture were analyzed by two-dimensional polyacrylamide gel electrophoresis. Three groups of proteins (Group T, P, and M), which were differentially produced when the bacterium grew on toluene, phenol, or the toluene-phenol mixture, respectively, were categorized by two strict criteria: reproducibility and uniqueness.; Based on the proteome analysis, selected Group T, P, and M proteins were subjected to N-terminal sequencing, and mass spectrometry, and results of these analyses were used in searches of the protein identities.; Two proteins were identified: acyl carrier protein (ACP) and β-ketoadipate:succinyl CoA transferase. The function of ACP, an essential protein in the biosynthesis of fatty acids, triggered the investigation of the compositional changes in the phospholipid fatty acids of the cellular membrane. The phospholipid fatty acid composition was found to dramatically change depending on the growth substrate(s). These membrane compositional changes during the biodegradation of the toluene-phenol mixture were used to form the hypothesis that the presence of toluene altered the structure of cellular membrane in favor of toluene transport and inhibited the transport of phenol into the cell. Once the cell consumed toluene, the membrane structure changed to be favorable to phenol transport across the cell membrane.; To consider more diverse contaminant mixtures, the growth of P. putida F1 on mixtures of toluene-phenol and two different heavy metals was also examined. The bacterium displayed better tolerance to cadmium than to chromate during growth on toluene, phenol, and their mixture. The metal tolerance of the bacterium remained at a similar level regardless of the substrate. Heavy metals substantially inhibited the cell growth rate on all substrates and the inhibitory effect was also reflected in decreased cell growth yields. (Abstract shortened by UMI.)... |
PDF Full Text Request