Evidence for the Existence of Two Catabolic Plasmids Coding for the Degradation of Naphthalene

References

1. Austen R. A., Dunn N. W. 1977a; A comparative study of the NAH and TOL catabolicplasmids in Pseudomonas putida.. Australian Journal of Biological Sciences 30:357–366
   [Google Scholar]
2. Austen R. A., Dunn N. W. 1977b; Isolation of mutants with altered metabolic control of the NAH plasmid-encoded catecholmeta cleavage pathway.. Australian Journal of Biological Sciences 30:583–592
   [Google Scholar]
3. Austen R. A., Dunn N. W. 1980; Regulation of the plasmid-specified naphthalene catabolic pathway ofPseudomonas putida.. Journal of General Microbiology 117:521–528
   [Google Scholar]
4. Boronin A., Starovoitov I. I., Borisoglebshaya A. N., Skryabin G. K. 1976; Plasmid ofPseudomonas putida controlling the primary stages of naphthalene oxidation.. Doklady Akad- emii nauk SSSR 228:962–965 Chemical Abstracts CAO 8517119456y
   [Google Scholar]
5. Chakrabarty A. M. 1972; Genetic basis of the biodegradation of salicylate inPseudomonas.. Journal of Bacteriology 112:815–823
   [Google Scholar]
6. Dunn N. W., Gunsalus 1.C. 1973; Transmissible plasmid coding early enzymes of naphthalene oxidation inPseudomonas putida.. Journal of Bacteriology 114:974–979
   [Google Scholar]
7. Fargie B., Holloway B. W. 1965; Absence of clustering of functionally related genes inPseudomonas aeruginosa.. Genetical Research 6:284–299
   [Google Scholar]
8. Gunsalus I. C., Gunsalus C. F., Chakrabarty A. M., Sikes S., Crawford I. P. 1968; Fine structure mapping of the tryptophan genes inPseudomonas putida.. Genetics 60:419–435
   [Google Scholar]
9. Hewetson L., Dunn H. M., Dunn N. W. 1978; Evidence for a transmissible catabolic plasmid inPseudomonas putida encoding the degradation ofP-cresol via the protocatechuateortho cleavage pathway.. Genetical Research 32:249–255
   [Google Scholar]
10. Jacoby G. A. 1979; Plasmids ofPseudomonas aeruginosa.. In Pseudomonas aeruginosa: Clinical Manifestations of Infection and Current Therapy pp. 271–309 Doggett R.G. Edited by New York: Academic Press;
    [Google Scholar]
11. Rheinwald J. G., Chakrabarty A. M., Gunsalus 1.C. 1973; A transmissible plasmid control ing camphor oxidation inPseudomonas putida.. Proceedings of the National Academy of Sciences of the United States of America 70:885–889
    [Google Scholar]
12. White G. P., Dunn N. W. 1977; Apparent fusion of the TOL plasmid with the R91 drug resistance plasmid inPseudomonas aeruginosa.. Australian Journal of Biological Sciences 30:345–355
    [Google Scholar]
13. White G. P., Dunn N. W. 1978; Compatibility and sex specific phage plating characteristics of the TOL and NAH catabolic plasmids.. Genetical Research 32:207–213
    [Google Scholar]
14. Williams P. A., Murray K. 1974; Metabolism of benzoate and the methylbenzoates byPseudomonas putida (arvilla) mt-2: evidence for the existence of the TOL plasmid.. Journal of Bacteriology 120:416–423
    [Google Scholar]
15. Wong CL., Dunn N. W. 1974; Transmissible plasmid coding for the degradation of benzoate andm-toluate inPseudomonas arvillamt-2.. Genetical Research 23:227–232
    [Google Scholar]
16. Wong C. L., Dunn N. W. 1976; Combined chromosomal and plasmid encoded control for the degradation of phenol inPseudomonas putida.. Genetical Research 27:405–412
    [Google Scholar]