The oxazine dye Nile blue A and its fluorescent oxazone form, Nile red, were used to develop a simple and highly sensitive staining method to detect poly(3-hydroxybutyric acid) and other polyhydroxyalkanoic acids (PHAs) directly in growing bacterial colonies. In contrast to previously described methods, these dyes were directly included in the medium at concentrations of only 0.5 microgram/ml, and growth of the cells occurred in the presence of the dyes. This allowed an estimation of the presence of PHAs in viable colonies at any time during the growth experiment and a powerful discrimination between PHA-negative and PHA-positive strains. The presence of Nile red or Nile blue A did not affect growth of the bacteria. This viable-colony staining method was in particular applicable to gram-negative bacteria such as Azotobacter vinelandii, Escherichia coli, Pseudomonas putida, and Ralstonia eutropha. It was less suitable for discriminating between PHA-negative and PHA-positive strains of gram-positive bacteria such as Bacillus megaterium or Rhodococcus ruber, but it could also be used to discriminate between wax-ester- and triacylglycerol-negative and -positive strains of Acinetobacter calcoaceticus or Rhodococcus opacus. The potential of this new method and its application to further investigations of PHA synthases and PHA biosynthesis pathways are discussed.
The triacylglycerol (TAG)-accumulating, hydrocarbon-degrading bacterium Rhodococcus opacus strain PD630 and chemically induced storage-deficient mutants derived from this strain were investigated for their capability to accumulate storage lipids in the cytoplasm during cultivation under nitrogen-limiting conditions. Acylglycerols were analysed by matrix-associated laser desorption ionization-time of flight mass spectrometry (MALDI-TOF) and by reversed-phase HPLC. Fatty acids comprising 13-19 carbon atoms in various acylglycerols constituted up to 76% of the cellular dry weight in gluconate-grown cells, with a significant proportion of odd-numbered fatty acids. Hydrolysis using pancreatic lipase and deacylation with ethyl magnesium bromide were employed to identify the stereospecific distribution of fatty acids at the glycerol. This analysis showed that the fatty acids were not randomly distributed between the three positions of the glycerol backbone. In comparison with common plant fats, where the longer and higher unsaturated fatty acids are predominantly found at position 2, R. opacus PD630 accumulated only the shorter and saturated fatty acids in this position. More than 100 mutants accumulating TAG at a significantly lower rate were obtained by chemical mutagenesis and identified by staining with Sudan Black B. All the mutants showed similar neutral lipid patterns by TLC analysis, with a small distinct spot exhibiting the same R(F) value as TAG; this was identified as a residual amount of TAG by preparative TLC and MALDI-TOF, indicating that this bacterium is possibly capable of synthesizing TAGs by at least two different pathways.
Gene transfer systems for Gordonia polyisoprenivorans strains VH2 and Y2K based on electroporation and conjugation, respectively, were established. Several parameters were optimized, resulting in transformation efficiencies of >4 ؋ 10 5 CFU/g of plasmid DNA. In contrast to most previously described electroporation protocols, the highest efficiencies were obtained by applying a heat shock after the intrinsic electroporation. Under these conditions, transfer and autonomous replication of plasmid pNC9503 was also demonstrated to proceed in G. alkanivorans DSM44187, G. nitida DSM44499 T , G. rubropertincta DSM43197 T , G. rubropertincta DSM46038, and G. terrae DSM43249 T . Conjugational plasmid DNA transfer to G. polyisoprenivorans resulted in transfer frequencies of up to 5 ؋ 10 ؊6 of the recipient cells. Recombinant strains capable of polyhydroxyalkanoate synthesis from alkanes were constructed.
Two cis‐1,4‐polyisoprene (isoprene rubber) degrading bacteria, strains VH2 and Y2K, were identified as strains of the species Gordonia polyisoprenivorans belonging to the Corynebacterineae, a suborder of the order Actinomycetales. Both showed characteristic growth and degradation of isoprene rubber as described previously for the type strain of G. polyisoprenivorans Kd2 (DSM 44302T). For strain VH2 the chemotaxonomic properties were investigated, and DNA–DNA hybridization experiments with the type strain revealed the affiliation to the species G. polyisoprenivorans. The comparison of the 16S rDNA sequences, and especially hyper variable regions of these, led to the classification of strain Y2K to the same species. At present, the species G. polyisoprenivorans comprises three different isolates which share the ability to degrade isoprene rubber potently but which were obtained from different geographic regions.
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