689-31-6Relevant articles and documents
Hill et al.
, p. 459 (1977)
Method for producing 3-oxoadipic acid
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Page/Page column 11-12, (2020/12/18)
A method of producing 3-oxoadipic acid from an aliphatic compound easily utilizable by a microorganism, such as a saccharide, by utilization of a metabolic pathway of the microorganism is disclosed. The method of producing 3-oxoadipic acid includes the step of culturing at least one type of microorganism having a capacity to produce 3-oxoadipic acid, selected from the group consisting of, for example, microorganisms belonging to the genus Serratia, microorganisms belonging to the genus Corynebacterium, microorganisms belonging to the genus Hafnia, microorganisms belonging to the genus Bacillus, microorganisms belonging to the genus Escherichia, microorganisms belonging to the genus Pseudomonas, microorganisms belonging to the genus Acinetobacter, microorganisms belonging to the genus Alcaligenes, microorganisms belonging to the genus Shimwellia, microorganisms belonging to the genus Planomicrobium, microorganisms belonging to the genus Nocardioides, microorganisms belonging to the genus Yarrowia, microorganisms belonging to the genus Cupriavidus, microorganisms belonging to the genus Rhodosporidium, microorganisms belonging to the genus Streptomyces, and microorganisms belonging to the genus Microbacterium.
ALTERNATIVE PATHWAYS TO ADIPIC ACID BY COMBINED FERMENTATION AND CATALYTIC METHODS
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Paragraph 0132, (2015/09/22)
Processes process for producing adipate or adipic acid using biological pathways and chemical catalyzes are disclosed. Homocitric acid may be a substrate in reaction pathways leading to adipic acid or a salt thereof.
Rapid Biodegradation of Aniline by Frateuria species ANA-18 and Its Aniline Metabolism
Aoki, Kenji,Ohtsuka, Kotaro,Shinke, Ryu,Nishira, Hiroshi
, p. 865 - 872 (2007/10/02)
A bacterial strain, ANA-18, was isolated from soil, when aniline was provided as a sole source of carbon and nitrogen at pH 5.5.The isolate belongs to a Frateuria species.Frateuria sp.ANA-18 was able to grow on aniline at pH 4.0 to 7.0 and readily degrated it.This bacterium decomposed aniline more rapidly than Rhodococcus erythropolis AN-13 reported previously.Resting cells of aniline-grown Frateuria sp.ANA-18 had 9-fold the oxidizing activity for aniline of those of R. erythropolis AN-13.The metabolic pathway for mineralization of aniline by Frateuria sp.ANA-18 was the same as that proposed for R. erythropolis AN-13.