Oxidation of Aromatic Acids by a Facultative Thermophilic Bacillus sp

References

1. Blakley E. R. 1972; Microbial conversion of p-hydroxyphenylacetic acid to homogentisic acid. Canadian Journal of Microbiology 18:1247–1255
   [Google Scholar]
2. Buswell J. A. 1975; Metabolism of phenol and cresols by Bacillus stearothermophilus. Journal of Bacteriology 124:1077–1083
   [Google Scholar]
3. Buswell J. A., Twomey D. G. 1974; Aromatic acid oxidation by a thermophilic bacterium. Proceedings of the Society for General Microbiology 1:48
   [Google Scholar]
4. Collingsworth W. L., Chapman P. J., Dagley S. 1973; Stereospecific enzymes in the degradation of aromatic compounds by Pseudomonas putida. Journal of Bacteriology 113:922–931
   [Google Scholar]
5. Crawford R. L. 1975a; Novel pathway for degradation of protocatechuic acid in Bacillus species. Journal of Bacteriology 121:531–536
   [Google Scholar]
6. Crawford R. L. 1975b; Degradation of 3-hydroxybenzoate by bacteria of the genus Bacillus. Applied Microbiology 30:439–444
   [Google Scholar]
7. Crawford R. L., Chapman P. J. 1975; Degradation of 4-hydroxyphenylpropionic acid by species of Bacillus. Abstracts of the Annual Meeting of the American Society for Microbiology p. 192 Washington, D.C.: American Society for Microbiology;
   [Google Scholar]
8. Crawford R. L., Hutton S. W., Chapman P. J. 1975; Purification and properties of gentisate 1,2- dioxygenase from Moraxella osloensis. Journal of Bacteriology 121:794–799
   [Google Scholar]
9. Dagley S. 1971; Catabolism of aromatic compounds by micro-organisms. Advances in Microbial Physiology 6:1–46
   [Google Scholar]
10. Ensign J. C., Rittenberg S. C. 1964; The pathway of nicotinic acid oxidation by a Bacillus species. Journal of Biological Chemistry 239:2285–2291
    [Google Scholar]
11. Guroff G., Daly J. W., Jerina D. M., Renson J., Witkop B., Udenfriend S. 1967; Hydroxylation induced migration: the NIH shift. Science, New York 157:1524–1530
    [Google Scholar]
12. Hager S. E., Gregerman R. I., Knox W. E. 1957; p-Hydroxyphenyl pyruvate oxidase of liver. Journal of Biological Chemistry 225:935–947
    [Google Scholar]
13. Hareland W. A., Crawford R. L., Chapman P. J., Dagley S. 1975; Metabolic function and properties of 4-hydroxyphenylacetic acid 1-hydroxylase from Pseudomonas acidovorans. Journal of Bacteriology 121:272–285
    [Google Scholar]
14. Hopper D. J., Chapman P. J. 1971; Gentisic acid and its 3- and 4-methyl-substituted homologues as intermediates in the bacterial degradation of m-cresol, 3,5-xylenol and 2,5-xylenol. Biochemical Journal 122:29–40
    [Google Scholar]
15. Hopper D. J., Chapman P. J., Dagley S. 1968; Enzymic formation of D-malate. Biochemical Journal 110:798–800
    [Google Scholar]
16. Hopper D. J., Chapman P. J., Dagley S. 1971; The enzymic degradation of alkylsubstituted gentisates, maleates and malates. Biochemical Journal 122:29–40
    [Google Scholar]
17. Lack L. 1959; The enzymic oxidation of gentisic acid. Biochimica et biophysica acta 34:117–123
    [Google Scholar]
18. La Du B. N., Zannoni V. G. 1955; The tyrosine oxidation system in liver. II. Oxidation of p-hydroxy- phenylpyruvic acid to homogentisic acid. Journal of Biological Chemistry 217:777–787
    [Google Scholar]
19. La Du B. N., Zannoni V. G. 1956; The tyrosine oxidation system in liver. III. Further studies on the oxidation of p-hydroxyphenylpyruvic acid. Journal of Biological Chemistry 219:273–281
    [Google Scholar]
20. Spokes J. R., Walker N. 1974; A novel pathway of benzoate metabolism in Bacillus species. Annali di microbiologia ed enzimologia 24:307–315
    [Google Scholar]
21. Tanaka H. S., Sugiyama S., Yano K., Arima K. 1957; Isolation of fumarylpyruvic acid as an intermediate of the gentisic acid oxidation by Pseudomonas ovalis var. s-5. Bulletin of the Agriculture Chemical Society of Japan 21:67–68
    [Google Scholar]
22. Wallnoeffer P., Engelhardt G. 1971; Degradation of phenylamides by Bacillus sphaericus. Archiv für Mikrobiologie 80:315–323
    [Google Scholar]