Unique microorganisms have been developed by the application of genetic
engineering techniques. These microorganisms contain at least two stable
(compatible) energy-generating plasmids, these plasmids specifying
separate degradative pathways. The techniques for preparing such
multi-plasmid strains from bacteria of the genus Pseudomonas are
described. Living cultures of two strains of Pseudomonas (P. aeruginosa
[NRRL B-5472] and P. putida ...
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Unique microorganisms have been developed by the application of genetic
engineering techniques. These microorganisms contain at least two stable
(compatible) energy-generating plasmids, these plasmids specifying
separate degradative pathways. The techniques for preparing such
multi-plasmid strains from bacteria of the genus Pseudomonas are
described. Living cultures of two strains of Pseudomonas (P. aeruginosa
[NRRL B-5472] and P. putida [NRRL B-5473]) have been deposited with the
United States Department of Agriculture, Agricultural Research Service,
Northern Marketing and Nutrient Research Division, Peoria, Ill. The P.
aeruginosa NRRL B-5472 was derived from Pseudomonas aeruginosa strain 1c
by the genetic transfer thereto, and containment therein, of camphor,
octane, salicylate and naphthalene degradative pathways in the form of
plasmids. The P. putida NRRL B-5473 was derived from Pseudomonas putida
strain PpG1 by genetic transfer thereto, and containment therein, of
camphor, salicylate and naphthalene degradative pathways and drug
resistance factor RP-1, all in the form of plasmids.
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