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Literature DB >> 4962057

Oxidation of 1-tetradecene by Pseudomonas aeruginosa.

Abstract

Pseudomonas aeruginosa strain Sol 20 was grown on 1-tetradecene as sole carbon source, and a vinyl-unsaturated 14-carbon monocarboxylic acid, 13-tetradecenoic acid, was identified from culture fluid. This acid was not produced when n-tetradecane served as substrate for growth. Oxidation of the methyl group represents one method of attack on the 1-alkene by this organism. Tentative identification of 2-tetradecanol indicates that an attack on the double bond is also occurring. alpha, omega-Dienes would not support growth.

Entities: Chemical Species

Mesh：

Substances：
Hydrocarbons

Year: 1967 PMID： 4962057 PMCID： PMC276599 DOI： 10.1128/jb.93.4.1289-1293.1967

Source DB: PubMed Journal: J Bacteriol ISSN： 0021-9193 Impact factor: 3.490

10 in total

Review 8. The biology of hydrocarbons.

Authors: E J McKenna; R E Kallio
Journal: Annu Rev Microbiol Date: 1965 Impact factor: 15.500

9. The synthesis of [I-14C]15-hexadecenoic acid and its metabolism in the rat.

Authors: W G Knipprath; J F Mead
Journal: Biochim Biophys Acta Date: 1966-04-04

10. Esters from Bacterial Oxidation of Olefins.

Authors: J E Stewart; W R Finnerty; R E Kallio; D P Stevenson
Journal: Science Date: 1960-10-28 Impact factor: 47.728

10 in total

9 in total

4. Degradation of hydrocarbons by members of the genus Candida. II. Oxidation of n-alkanes and l-alkenes by Candida lipolytica.

Authors: M J Klug; A J Markovetz
Journal: J Bacteriol Date: 1967-06 Impact factor: 3.490

Oxidation of 1-tetradecene by Pseudomonas aeruginosa.

1. THE OXIDATION OF ALPHA-OLEFINS BY A PSEUDOMONAS. REACTIONS INVOLVING THE DOUBLE BOND.

2. EPOXIDATION OF ALPHA-OLEFINS BY HEPTANE-GROWN PSEUDOMONAS CELLS.

3. Pathways of hydrocarbon dissimilation by a Pseudomonas as revealed by chloramphenicol.

4. [Dehydrogenation of paraffin hydrocarbons by non-proliferating suspensions and extracts of Pseudomonas aeruginosa].

5. Preparation of methyl esters.

6. Qualitative and quantitative determination of the fatty acids by gas-liquid chromatography.

7. Studies on Pseudomonas methanica (Söhngen) nov. comb.

Review 8. The biology of hydrocarbons.

9. The synthesis of [I-14C]15-hexadecenoic acid and its metabolism in the rat.

10. Esters from Bacterial Oxidation of Olefins.

1. Microbial metabolism of ethylene.

2. Effect of Substrate on the Fatty Acid Composition of Hydrocarbon- and Ketone-utilizing Microorganisms.

3. Bacterial hydrocarbons: occurrence, structure and metabolism.

4. Degradation of hydrocarbons by members of the genus Candida. II. Oxidation of n-alkanes and l-alkenes by Candida lipolytica.

5. The biochemical status of metabolites of alkane-utilizing Pseudomonas organisms.

6. Microbial assimilation of hydrocarbons. II. Fatty acids derived from 1-alkenes.

7. Oxidation of n-tetradecane and 1-tetradecene by fungi.

8. Subterminal oxidation of aliphatic hydrocarbons.

9. Pathway of n-alkane oxidation in Cladosporium resinae.