P. cepacia strain

The degradation of 3-chloro-4-methlaniline by P. cepacia strain CMA1 involved ring fission by an intradiol enzyme (Stockinger et al. 1992). 

Naphthalene, phenanthrene, anthracene, and fluorene by P. cepacia strain F297 (Grifoll et al. 1995) ... 

Trichloroethene and aromatic compounds — A striking example is the degradation of trichloroethene by different strains of Pseudomonas sp. grown with phenol (Folsom et al. 1990) or with toluene. This capability has already been noted in Section 4.4.1.1 in the context of monooxygenase reactions, and has attracted attention for the bioremediation of contaminated sites (Hopkins and McCarty 1995). Conversely, toluene degradation is induced (a) by trichloroethene in a strain of P. putida (Heald and Jenkins 1994) and (b) in P. mendocina — although not in Burkholderia (Pseudomonas) cepacia or P. putida strain FI — by trichloroethene, pentane, and... 

Pierce et al. [124,125] reported that P. cepacia and several other Pseudomonas species were capable of utilizing mono- and dichlorinated toluenes as the sole source of carbon and energy. These strains contained plasmids of about 45 kilobase, which coded for chlorotoluene degradation. Restriction analysis showed that these plasmids, although of similar size, were not identical. 

Deoxy-L-galactose (L-fucose) is common, and has only been found as the a- or )3-pyranoside. The rare D-fucose has, however, been found both as a-pyranoside, in the LPS frorn Pseudomonas cepacia serotypes B and E, and as a-furanoside, in the cell-wall antigen from Eubacterium saburreum L 452 and the O-antigens from different strains of Psuedomonas syrin-gae The a-furanoside, as in 3, has a cis relationship between the aglycon and OH-2. The corresponding P form has not yet been found. 6-Deoxy-o-and -L-talose are components of the extracellular polysaccharides from some strains of Butyrivibrio fibrisolvens and of the LPS from some strains of E. coli respectively. 

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