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Genetic and Biochemical Characterization of a Novel Monoterpene ɛ-Lactone Hydrolase from Rhodococcus erythropolis DCL14

van der Vlugt-Bergmans, Cécile J. B ; van der Werf, Mariët J.

American Society for Microbiology ; 2001

In: Applied and Environmental Microbiology Vol. 67, No. 2 ( 2001-02), p. 733-741

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In: Applied and Environmental Microbiology, American Society for Microbiology, Vol. 67, No. 2 ( 2001-02), p. 733-741

Abstract: A monoterpene ɛ-lactone hydrolase (MLH) from Rhodococcus erythropolis DCL14, catalyzing the ring opening of lactones which are formed during degradation of several monocyclic monoterpenes, including carvone and menthol, was purified to apparent homogeneity. It is a monomeric enzyme of 31 kDa that is active with (4 R )-4-isopropenyl-7-methyl-2-oxo-oxepanone and (6 R )-6-isopropenyl-3-methyl-2-oxo-oxepanone, lactones derived from (4 R )-dihydrocarvone, and 7-isopropyl-4-methyl-2-oxo-oxepanone, the lactone derived from menthone. Both enantiomers of 4-, 5-, 6-, and 7-methyl-2-oxo-oxepanone were converted at equal rates, suggesting that the enzyme is not stereoselective. Maximal enzyme activity was measured at pH 9.5 and 30°C. Determination of the N-terminal amino acid sequence of purified MLH enabled cloning of the corresponding gene by a combination of PCR and colony screening. The gene, designated mlhB (monoterpene lactone hydrolysis), showed up to 43% similarity to members of the GDXG family of lipolytic enzymes. Sequencing of the adjacent regions revealed two other open reading frames, one encoding a protein with similarity to the short-chain dehydrogenase reductase family and the second encoding a protein with similarity to acyl coenzyme A dehydrogenases. Both enzymes are possibly also involved in the monoterpene degradation pathways of this microorganism.

Type of Medium: Online Resource

ISSN: 0099-2240 , 1098-5336

URL: Article

DOI: 10.1128/AEM.67.2.733-741.2001

RVK:

WA 15000

Language: English

Publisher: American Society for Microbiology

Publication Date: 2001

detail.hit.zdb_id: 223011-2

detail.hit.zdb_id: 1478346-0

SSG: 12

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Rhodococcus erythropolis DCL14 Contains a Novel Degradation Pathway for Limonene

van der Werf, Mariët J. ; Swarts, Henk J. ; de Bont, Jan A. M.

American Society for Microbiology ; 1999

In: Applied and Environmental Microbiology Vol. 65, No. 5 ( 1999-05), p. 2092-2102

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In: Applied and Environmental Microbiology, American Society for Microbiology, Vol. 65, No. 5 ( 1999-05), p. 2092-2102

Abstract: Strain DCL14, which is able to grow on limonene as a sole source of carbon and energy, was isolated from a freshwater sediment sample. This organism was identified as a strain of Rhodococcus erythropolis by chemotaxonomic and genetic studies. R. erythropolis DCL14 also assimilated the terpenes limonene-1,2-epoxide, limonene-1,2-diol, carveol, carvone, and (−)-menthol, while perillyl alcohol was not utilized as a carbon and energy source. Induction tests with cells grown on limonene revealed that the oxygen consumption rates with limonene-1,2-epoxide, limonene-1,2-diol, 1-hydroxy-2-oxolimonene, and carveol were high. Limonene-induced cells of R. erythropolis DCL14 contained the following four novel enzymatic activities involved in the limonene degradation pathway of this microorganism: a flavin adenine dinucleotide- and NADH-dependent limonene 1,2-monooxygenase activity, a cofactor-independent limonene-1,2-epoxide hydrolase activity, a dichlorophenolindophenol-dependent limonene-1,2-diol dehydrogenase activity, and an NADPH-dependent 1-hydroxy-2-oxolimonene 1,2-monooxygenase activity. Product accumulation studies showed that (1 S ,2 S ,4 R )-limonene-1,2-diol, (1 S ,4 R )-1-hydroxy-2-oxolimonene, and (3 R )-3-isopropenyl-6-oxoheptanoate were intermediates in the (4 R )-limonene degradation pathway. The opposite enantiomers [(1 R ,2 R ,4 S )-limonene-1,2-diol, (1 R ,4 S )-1-hydroxy-2-oxolimonene, and (3 S )-3-isopropenyl-6-oxoheptanoate] were found in the (4 S )-limonene degradation pathway, while accumulation of (1 R ,2 S ,4 S )-limonene-1,2-diol from (4 S )-limonene was also observed. These results show that R. erythropolis DCL14 metabolizes both enantiomers of limonene via a novel degradation pathway that starts with epoxidation at the 1,2 double bond forming limonene-1,2-epoxide. This epoxide is subsequently converted to limonene-1,2-diol, 1-hydroxy-2-oxolimonene, and 7-hydroxy-4-isopropenyl-7-methyl-2-oxo-oxepanone. This lactone spontaneously rearranges to form 3-isopropenyl-6-oxoheptanoate. In the presence of coenzyme A and ATP this acid is converted further, and this finding, together with the high levels of isocitrate lyase activity in extracts of limonene-grown cells, suggests that further degradation takes place via the β-oxidation pathway.

Type of Medium: Online Resource

ISSN: 0099-2240 , 1098-5336

URL: Article

DOI: 10.1128/AEM.65.5.2092-2102.1999

RVK:

WA 15000

Language: English

Publisher: American Society for Microbiology

Publication Date: 1999

detail.hit.zdb_id: 223011-2

detail.hit.zdb_id: 1478346-0

SSG: 12

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Limonene-1,2-Epoxide Hydrolase from Rhodococcus erythropolis DCL14 Belongs to a Novel Class of Epoxide Hydrolases

van der Werf, Mariët J. ; Overkamp, Karin M. ; de Bont, Jan A. M.

American Society for Microbiology ; 1998

In: Journal of Bacteriology Vol. 180, No. 19 ( 1998-10), p. 5052-5057

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In: Journal of Bacteriology, American Society for Microbiology, Vol. 180, No. 19 ( 1998-10), p. 5052-5057

Abstract: An epoxide hydrolase from Rhodococcus erythropolis DCL14 catalyzes the hydrolysis of limonene-1,2-epoxide to limonene-1,2-diol. The enzyme is induced when R. erythropolis is grown on monoterpenes, reflecting its role in the limonene degradation pathway of this microorganism. Limonene-1,2-epoxide hydrolase was purified to homogeneity. It is a monomeric cytoplasmic enzyme of 17 kDa, and its N-terminal amino acid sequence was determined. No cofactor was required for activity of this colorless enzyme. Maximal enzyme activity was measured at pH 7 and 50°C. None of the tested inhibitors or metal ions inhibited limonene-1,2-epoxide hydrolase activity. Limonene-1,2-epoxide hydrolase has a narrow substrate range. Of the compounds tested, only limonene-1,2-epoxide, 1-methylcyclohexene oxide, cyclohexene oxide, and indene oxide were substrates. This report shows that limonene-1,2-epoxide hydrolase belongs to a new class of epoxide hydrolases based on (i) its low molecular mass, (ii) the absence of any significant homology between the partial amino acid sequence of limonene-1,2-epoxide hydrolase and amino acid sequences of known epoxide hydrolases, (iii) its pH profile, and (iv) the inability of 2-bromo-4′-nitroacetophenone, diethylpyrocarbonate, 4-fluorochalcone oxide, and 1,10-phenanthroline to inhibit limonene-1,2-epoxide hydrolase activity.

Type of Medium: Online Resource

ISSN: 0021-9193 , 1098-5530

URL: Article

DOI: 10.1128/JB.180.19.5052-5057.1998

Language: English

Publisher: American Society for Microbiology

Publication Date: 1998

detail.hit.zdb_id: 1481988-0

SSG: 12

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Identification and Sequencing of β-Myrcene Catabolism Genes from Pseudomonas sp. Strain M1

Iurescia, Sandra ; Marconi, Andrea M. ; Tofani, Daniela ; [et al.]

American Society for Microbiology ; 1999

In: Applied and Environmental Microbiology Vol. 65, No. 7 ( 1999-07), p. 2871-2876

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In: Applied and Environmental Microbiology, American Society for Microbiology, Vol. 65, No. 7 ( 1999-07), p. 2871-2876

Abstract: The M1 strain, able to grow on β-myrcene as the sole carbon and energy source, was isolated by an enrichment culture and identified as a Pseudomonas sp. One β-myrcene-negative mutant, called N22, obtained by transposon mutagenesis, accumulated ( E )-2-methyl-6-methylen-2,7-octadien-1-ol (or myrcen-8-ol) as a unique β-myrcene biotransformation product. This compound was identified by gas chromatography-mass spectrometry. We cloned and sequenced the DNA regions flanking the transposon and used these fragments to identify the M1 genomic library clones containing the wild-type copy of the interrupted gene. One of the selected cosmids, containing a 22-kb genomic insert, was able to complement the N22 mutant for growth on β-myrcene. A 5,370-bp-long sequence spanning the region interrupted by the transposon in the mutant was determined. We identified four open reading frames, named myrA , myrB , myrC , and myrD , which can potentially code for an aldehyde dehydrogenase, an alcohol dehydrogenase, an acyl-coenzyme A (CoA) synthetase, and an enoyl-CoA hydratase, respectively. myrA , myrB , and myrC are likely organized in an operon, since they are separated by only 19 and 36 nucleotides (nt), respectively, and no promoter-like sequences have been found in these regions. The myrD gene starts 224 nt upstream of myrA and is divergently transcribed. The myrB sequence was found to be completely identical to the one flanking the transposon in the mutant. Therefore, we could ascertain that the transposon had been inserted inside the myrB gene, in complete agreement with the accumulation of ( E )-2-methyl-6-methylen-2,7-octadien-1-ol by the mutant. Based on sequence and biotransformation data, we propose a pathway for β-myrcene catabolism in Pseudomonas sp. strain M1.

Type of Medium: Online Resource

ISSN: 0099-2240 , 1098-5336

URL: Article

DOI: 10.1128/AEM.65.7.2871-2876.1999

RVK:

WA 15000

Language: English

Publisher: American Society for Microbiology

Publication Date: 1999

detail.hit.zdb_id: 223011-2

detail.hit.zdb_id: 1478346-0

SSG: 12

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