Production of a new compound, 7,10-dihydroxy-8-(E)-octadecenoic acid from oleic acid byPseudomonas sp. PR3

@article{Hou2005ProductionOA,
  title={Production of a new compound, 7,10-dihydroxy-8-(E)-octadecenoic acid from oleic acid byPseudomonas sp. PR3},
  author={Ching Tsang Hou and Marvin O. Bagby},
  journal={Journal of Industrial Microbiology},
  year={2005},
  volume={7},
  pages={123-129}
}
  • C. Hou, M. Bagby
  • Published 1 March 1991
  • Biology
  • Journal of Industrial Microbiology
SummarySixty-two cultures from the ARS Culture Collection and 10 cultures isolated from soil and water samples collected in Illinois were screened for their ability to convert agricultural oils to value-added industrial chemicals. A new compound, 7,10-dihydroxy-8-(E)-octadecenoic acid (DOD) was produced from oleic acid by a new strain,Pseudomonas sp. PR3 isolated from a water sample in Morton, IL. Strain PR3 is a motile, small rod-shaped, Gram-negative bacterium. It has multiple polar flagellae… 
View on Springer
45 Citations
Highly Influential Citations
4
Background Citations
14
Methods Citations
4
Results Citations
1

45 Citations

Factors Influencing the Production of a Novel Compound, 7,10-Dihydroxy-8(E)-octadecenoic Acid, by Pseudomonas aeruginosa PR3 (NRRL B-18602) in Batch Cultures
TLDR
This is the first report on a successful scale-up production of DOD, which converts oleic acid to a novel compound, 7,10-dihydroxy-8(E)-octadecenoic acid (DOD), in batch cultures using Fernbach flasks and a bench-top bioreactor.
Production and identification of a novel compound, 7,10-dihydroxy-8(E)-hexadecenoic acid from palmitoleic acid by Pseudomonas aeruginosa PR3
TLDR
It is confirmed that PR3 could produce 7,10-dihydroxy-8(E)-hexadecenoic acid (DHD) with 23% yield from palmitoleic acid, while DHD production was peaked at 72 h after the substrate was added to the 24-h-culture.
Production of 7,10-dihydroxy-8(E)-octadecenoic acid from olive oil by Pseudomonas aeruginosa PR3
TLDR
Results from this study demonstrated that natural vegetable oils containing oleic acid could be used as efficient substrate for the production of DOD by strain PR3, and 7,10-dihydroxy-8(E)-octadecenoic acid (DOD) was efficiently produced from oalic acid by strainPR3.
Production of 10,12-dihydroxy-8(E)-octadecenoic acid, an intermediate in the conversion of ricinoleic acid to 7,10,12 trihydroxy-8(E)-octadecenoic acid by Pseudomonas aeruginosa PR3
TLDR
This is the first report on the production of 10,12-dihydroxy-8(E)-octadecenoic acid from ricinoleic acid by PR3, and the structural similarity between DHOD and TOO and the results from the time course study of the above two compounds strongly suggested that DHOD was an intermediate in the bioconversion of ricinolesic acid to TOO byPR3.
Production of 7, 10-dihydroxy-8(E)-octadecenoic acid from triolein via lipase induction by Pseudomonas aeruginosa PR3
TLDR
Results from this study demonstrated that natural vegetable oils, without being intentionally hydrolyzed, could be used as efficient substrates for the microbial production of value-added hydroxy fatty acids.
10-Hydroxy-8(Z)-octadecenoic acid, an intermediate in the bioconversion of oleic acid to 7,10-dihydroxy-8(E)-octadecenoic acid
TLDR
Another compound is isolated from the reaction mixture determined by GC/MS to be 10-hydroxy-8-octadecenoic acid (HOD), which may be an intermediate in the biosynthesis of DOD from oleic acid.
-octadecenoic acid from linoleic acid by Pseudomonas aeruginosa PR3
Trihydroxy unsaturated fatty acids with 18 carbons have been reported as plant self-defense substances. Their production in nature is rare and is found mainly in plant systems. Previously, we
Production of a novel compound, 10,12-dihydroxystearic acid from ricinoleic acid by an oleate hydratase from Lysinibacillus fusiformis
TLDR
The emulsifying activity of 10,12-dihydroxystearic acid was higher than that of oleic acid, ricinoleic Acid, stearic acids, and 10-hydroxystears acid, indicating that 10, 12-dhydroxyStearic Acid can be used as a biosurfactant.
alpha-Glucosidase inhibitory activities of 10-hydroxy-8(E)-octadecenoic acid: an intermediate of bioconversion of oleic acid to 7,10-dihydroxy-8(E)-octadecenoic acid.
Identification of Pseudomonas aeruginosa Mutants Unable to Convert Ricinoleic Acid into 7,10,12-Trihydroxy-8(e)-Octadecenoic Acid (TOD) and a Survey of the Biological Activity Of TOD
The gram-negative bacterium Pseudomonas aeruginosa catalyzes the conversion of ricinoleic acid (RA) into the novel trihydroxy fatty acid 7, 10, 12-trihydroxy-8(E)octadecenoic acid (TOD) which has
...
...

References

SHOWING 1-10 OF 18 REFERENCES
A novel compound, 7,10-dihydroxy-8(E)-octadecenoic acid from oleic acid by bioconversion
Sixty-two cultures from the Agricultural Research Service (ARS) Culture Collection and 10 cultures isolated from soil and water samples in Illinois were screened for their ability to convert
The microbiological production of 10-hydroxystearic acid from oleic acid.
The conversion of stearic to oleic acid by liver and yeast preparations.
Epoxidation of unsaturated fatty acids by a soluble cytochrome P-450-dependent system from Bacillus megaterium.
New surfactant isolated fromPseudomonas 42A2
TLDR
The new strain of Pseudomonas 42A2, when cultivated in mineral salt medium with olive oil as carbon source, produced a new surface active compound which was isolated and identified as dihydroxyoctadecenoic acid.
cis-5,cis-9,cis-12-octadecatrienoic and some unusual oxygenated acids inXeranthemum annuum seed oil
TLDR
Seed oil ofXeranthemum annuum (family Compositae) contains a number of unusual fatty acids in addition to palmitic, stearic, oleic, linoleic and linolenic, as well as a mixture of two hydroxy acids.
The Oxidase Reaction as a Taxonomic Tool
TLDR
The oxidase test of Kovacs (1956) was applied to 1660 strains of various genera, of which 210 gave a positive reaction and 64 gave a delayed positive reaction, and equivocal results were obtained in the Brucellaceae and the genus Bacillus.
Enzymatic stereospecificity in the hydration of epoxy fatty acids. Stereospecific incorporation of the oxygen of water.
Microbial conversion of oleic acid to 10-hydroxystearic acid
TLDR
Resting cell suspensions of seven Nocardia species catalyzed the production of 10-hydroxystearic acid from oleic acid via hydration of the double bond, specific for fatty acids with cis unsaturation at the 9 position.
Microbial transformation of important
  • 1982
...
...