• Title/Summary/Keyword: Aniline dioxygenase

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Comparative Analysis of Aniline Dioxygenase Genes from Aniline Degrading Bacteria, Burkholderia sp. HY1 and Delftia sp. HY99. (Aniline 분해균주 Burkholderia sp. HY1과 Delftia sp. HY99에서 유래된 Aniline Dioxygenases 유전자의 비교 분석)

  • Kahng, Hyung-Yeel;Oh, Kye-Heon
    • Microbiology and Biotechnology Letters
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    • v.35 no.2
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    • pp.104-111
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    • 2007
  • In this study, aniline dioxygenase genes responsible for initial catabolism of aniline in Burkholderia sp. HY1 and Delftia sp. HY99 were cloned and the amino acid sequences were comparatively analyzed, which already have been reported as bacteria utilizing aniline as a sole source of carbon and nitrogen, B. sp. HY1 was found to have at least a plasmid, and the plasmld-cured strain, B. sp. HY1-PC obtained using mitomycin C was tested with wild type strain to investigate whether the former maintained the degradability for aniline. This proved that the aniline oxygenase gene from B. sp. HY1 was located in chromosomal DNA, not in plasmid DNA. Aniline dioxygenase small subunits from B. sp. HY1 and D. sp. HY99 were found, based on 146 amino acids, to share 79% similarity. Notably, ado2 genes from B. sp. HY1 and D. sp. HY99 which were found to be terminal dioxygenase of aniline dioxygenase small subunit showed 99% similarity in the deduced amino acid sequences with tdnA2 of Frateuria sp. ANA-18 and danA2 of D. sp. AN3, respectively. Besides, enzyme assay and amino acid sequence analysis of catechol dioxygenase supported the previous report that B. sp. HY1 might occupy ortho-cleavage pathway using catechol 1,2-dioxygenase, while D. sp. HY99 might occupy catechol 2,3-dioxygenase for meta-cleavage pathway.

Characterization of different Dioxygenases isolated from Delftia sp. JK-2 capable of degrading Aromatic Compounds, Aniline, Benzoate, and p-Hydroxybenzoate (방향족 화합물인 Aniline, benzoate, p-Hydroxybenzoate를 분해하는 Delftia sp. JK-2에서 분리된 Dioxygenases의 특성연구)

  • 오계헌;황선영;천재우;강형일
    • KSBB Journal
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    • v.19 no.1
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    • pp.50-56
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    • 2004
  • The aim of this work was to investigate the purification and characterization dixoygenases isolated from Delftia sp. JK-2, which could utilize aniline, benzoate, and p-hydroxybenoate as sole carbon and energy source. Catechol 1,2-dioxygenase (C1, 2O), catechol 2,3-dioxygenase(C2, 3O), and protocatechuate 4,5-dioxygenase(4,5-PCD) were isolated by benzoate, aniline, and p-hydroxybenzoate. In initial experiments, several characteristics of C1 ,2O, C2, 3O, and 4,5-PCD separated with ammonium sulfate precipitation, DEAE-sepharose, and Q-sepharose were investigated. Specific activity of C1 ,2O, C2, 3O, and 4,5-PCD were approximately 3.3 unit/mg, 4.7 unit/mg, and 2.0 unit/mg. C1 ,2O and C2, 3O demonstrated their enzyme activities to other substrates, catechol and 4-methylcatechol. 4,5-PCD showed the specific activity to the only substrate, protocatechuate, but the substrates(e.g., catechol, 3-methylcatechol, 4-methylcatechol, 4-chlorocatechol, 4-nitrocatechol) did not show any specific activities in this work. The optimum temperature of C1, 2O, C2, 3O, and 4,5-PCD were 30$^{\circ}C$, and the optimal pHs were approximately 8, 8, and 7, respectively. Ag$\^$+/, Hg$\^$+/, Cu$\^$2+/ showed inhibitory effect on the activity of C1, 2O and C2, 3O, but Ag$\^$+/, Hg$\^$+/, Cu$\^$2+/, Fe$\^$3+/ showed inhibitory effect on the activity of 4,5-PCD. Molecular weight of the C1, 2O, C2, 3O, and 4,5-PCD were determined to approximately 60 kDa,35 kDa, and 62 kDa by SDS-PAGE.

Analysis of N- Terminal Amino Acid Sequence of Catechol 2,3-dioxygenase from Aniline Degrading Delftia sp. JK-2 (Aniline 분해세균 Delftia sp. JK-2에서 분리된 Catechol 2,3-dioxygenase의 N-말단 아미노산 서열 분석)

  • Hwang Seon-Young;Kahng Hyung-Yeel;Oh Kye-Heon
    • Korean Journal of Microbiology
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    • v.41 no.1
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    • pp.13-17
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    • 2005
  • The aim of this work was to investigate the N-terminal amino acid sequence of catechol 2,3-dioxygenase isolated from Delftia sp. JK-2, which could utilize aniline as sole carbon, nitrogen and energy source. Molecular weight of the enzyme was determined to approximately 35 kDa by SDS-PAGE. N-terminal amino acid sequence of C2,3O from strain JK-2 was $^1MGVMRIGHASLKVMDMDAAVRHYENV^{26}$, and exhibited high sequence similarity with that of C2,3O from Pseudomonas sp., Comamonas sp. JS765, Comamonas test-osteroni, or Burkholderia sp. RP007. Approximately 950-bp C2,3O was obtained through PCR using the primers derived from N-terminal amino acid sequence. Analysis of the DNA sequence revealed that the deduced 296 amino acid sequences were determined, and it showed $100\%$ identity with C2,3O from Pseudomonas sp. AW-2 and $97\%$ similarity with Comamonas sp. JS765.

Characterization and N-Terminal Amino Acid Sequence Analysis of Catechol 2,3-dioxygenase Isolated from the Aniline Degrading Bacterium, Delftia sp. JK-2 (Aniline 분해세균 Delftia sp. JK-2에서 분리된 catechol 2,3-dioxygenase의 특성 및 N-말단 아미노산 서열분석)

  • 황선영;송승열;오계헌
    • Korean Journal of Microbiology
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    • v.39 no.1
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    • pp.1-7
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    • 2003
  • The aim of this work was to investigate the characterization and sequence of catechol 2,3-dioxygenase isolated from Delfia sp. JK-2, which could utilize aniline as sole carbon, nitrogen and energy source. In initial experiments, several characteristics of C2,3O separated with ammonium sulfate precipitation, DEAE-sepharose were investigated. Specific activity of C2,3O was approximately 4.72 unit/mg. C2,3O demonstrated its enzyme activity to other substrates, catechol and 4-methylcatechol. The optimum temperature of C2,3O was $$Cu^{2+}$^{\circ}C$, and the optimal pH was approximately 8. Metal ions such as $Ag^{+}$, $Hg^{+}$, and $Cu^{2+}$ showed inhibitory effect on the activity of C2,3O. Molecular weight of the enzyme was determined to approximately 35 kDa by SDS-PAGE. N-terminal amino acid sequence of C2,3O was analyzed as $^{1}MGVMRIG-HASLKVMDMDA- AVRHYENV^{26}$, and exhibited high sequence homology with that of C2,30 from Pseudomonas sp. AW-2, Comamonas sp. JS765, Comamonas testosteroni and Burkholderia sp. RPO07. PCR product was amplified with the primers derived from N-terminal amino acid sequence. In this work, we found that the amino acid sequence of Delftia sp. JK-2 showed high sequence homology of C2,3O from Pseudomonas sp. AW-2 (100%) and Comamonas sp. JS765 (97%).

Molecular Cloning and Characterization of Catechol 2, 3-Dioxygenase Gene from Aniline-Degrading Psseudomonas acidovorans

  • Lee, Ji-Hyun;Bang, Sung-Ho;Park, Youn-Keun;Lee, Yung-Nok
    • Korean Journal of Microbiology
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    • v.30 no.4
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    • pp.316-321
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    • 1992
  • Catechol 2, 3-dioxygenase (C230) catalyses the oxidative ring cleavage of catechol to 2-hydroxymuconic semialdehyde. This is one of the key reactions in the metabolism of the widespresd pollutant aniline. We have cloned a gene encoding C230 from cells of the aniline degrading bacteria, Pseudomonas acidovorance KCTC2494 strain and expressed in E. coli, A 11.3-kilobase Sau3A partial digested DNA fragment from KCTC2494 was cloned into phagemid vector pBluescript and designated as pLP201. The C230 gene was mapped to a 2.8-kb region, and the derection of transcription was determined. The cloned C230 gene contains its own promoter which can be recognized and employed by E. coli transcriptional apparatus. C230 activities of subclones were identified by enzyme assay and activity staining. The T7 RNA promoter/polymerase system and maxicell analysis showed that a polypeptide with Mw of 35 kDa is the C230 gene product.

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Characterization of Protocatechuate 4,5-Dioxygenase Induced from p-Hydroxybenzoate -Cultured Pseudomonas sp. K82

  • Yun, Sung-Ho;Yun, Chi-Young;Kim, Seung-Il
    • Journal of Microbiology
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    • v.42 no.2
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    • pp.152-155
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    • 2004
  • Pseudomonas sp. K82 has been reported to be an aniline-assimilating soil bacterium. However, this strain can use not only aniline as a sole carbon and energy source, but can also utilize benzoate, p-hydroxybenzoate, and aniline analogues. The strain accomplishes this metabolic diversity by using dif-ferent aerobic pathways. Pseudomonas sp. K82, when cultured in p-hydroxybenzoate, showed extradiol cleavage activity of protocatechuate. In accordance with those findings, our study attempted the puri-fication of protocatechuate 4,5-dioxygenase (PCD 4,5). However the purified PCD 4,5 was found to be very unstable during purification. After Q-sepharose chromatography was performed, the crude enzyme activity was augmented by a factor of approximately 4.7. From the Q-sepharose fraction which exhibited PCD 4,5 activity, two subunits of PCD4,5 (${\alpha}$ subunit and ${\beta}$ subunit) were identified using the N-terminal amino acid sequences of 15 amino acid residues. These subunits were found to have more than 90% sequence homology with PmdA and PmdB of Comamonas testosteroni. The molecular weight of the native enzyme was estimated to be approximately 54 kDa, suggesting that PCD4,5 exists as a het-erodimer (${\alpha}$$_1$${\beta}$$_1$). PCD 4,5 exhibits stringent substrate specificity for protocatechuate and its optimal activity occurs at pH 9 and 15 $^{\circ}C$. PCR amplification of these two subunits of PCD4,5 revealed that the ${\alpha}$ subunit and ${\beta}$ subunit occurred in tandem. Our results suggest that Pseudomonas sp. K82 induced PCD 4,5 for the purpose of p-hydroxybenzoate degradation.