Journal of Microbiology

Journal Article

Comparative genomic analysis of pyrene-degrading Mycobacterium species: Genomic islands and ring-hydroxylating dioxygenases involved in pyrene degradation: Dae-Wi Kim , Kihyun Lee , Do-Hoon Lee , Chang-Jun Cha; J. Microbiol. 2018;56(11):798-804. Published online October 24, 2018; DOI: https://doi.org/10.1007/s12275-018-8372-0

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Abstract: The genome sequences of two pyrene-degrading bacterial strains of Mycobacterium spp. PYR10 and PYR15, isolated from the estuarine wetland of the Han river, South Korea, were determined using the PacBio RS II sequencing platform. The complete genome of strain PYR15 was 6,037,017 bp in length with a GC content of 66.5%, and contained 5,933 protein- coding genes. The genome of strain PYR10 was 5,999,427 bp in length with a GC content of 67.7%, and contained 5,767 protein-coding genes. Based on the average nucleotide identity values, these strains were designated as M. gilvum PYR10 and M. pallens PYR15. A genomic comparison of these pyrene-degrading Mycobacterium strains with pyrene- non-degrading strains revealed that the genomes of pyrene-degrading strains possessed similar repertoires of ringhydroxylating dioxygenases (RHDs), including the pyrenehydroxylating dioxygenases encoded by nidA and nidA3, which could be readily distinguished from those of pyrenenon- degraders. Furthermore, genomic islands, containing catabolic gene clusters, were shared only among the pyrenedegrading Mycobacterium strains and these gene clusters contained RHD genes, including nidAB and nidA3B3. Our genome data should facilitate further studies on the evolution of the polycyclic aromatic hydrocarbon-degradation pathways in the genus Mycobacterium.

Research Support, Non-U.S. Gov't

Isolation and Characterization of a Rhodococcus Species Strain Able to Grow on ortho- and para-Xylene: Jung Yeon Jang , Dockyu Kim , Hyun Won Bae , Ki Young Choi , Jong-Chan Chae , Gerben J. Zylstra , Young Min Kim , Eungbin Kim; J. Microbiol. 2005;43(4):325-330.; DOI: https://doi.org/2258 [pii]

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Abstract: Rhodococcus sp. strain YU6 was isolated from soil for the ability to grow on o-xylene as the sole carbon and energy source. Unlike most other o-xylene-degrading bacteria, YU6 is able to grow on p-xylene. Numerous growth substrate range experiments, in addition to the ring-cleavage enzyme assay data, suggest that YU6 initially metabolizes o- and p-xylene by direct aromatic ring oxidation. This leads to the formation of dimethylcatechols, which was further degraded largely through meta-cleavage pathway. The gene encoding meta-cleavage dioxygenase enzyme was PCR cloned from genomic YU6 DNA using previously known gene sequence data from the o-xylene-degrading Rhodococcus sp. strain DK17. Subsequent sequencing of the 918-bp PCR product revealed a 98% identity to the gene, encoding methylcatechol 2,3-dioxygenase from DK17. PFGE analysis followed by Southern hybridization with the catechol 2,3-dioxygenase gene demonstrated that the gene is located on an approximately 560-kb megaplasmid, designated pJYJ1 <br>

Journal Article

Characterization of Protocatechuate 4,5-Dioxygenase Induced from p-Hydroxybenzoate-Cultured Pseudomonas sp. K82: Sung-Ho Yun , Chi-Young Yun , Seung Il Kim; J. Microbiol. 2004;42(2):152-155.; DOI: https://doi.org/2029 [pii]

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Abstract: 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, phydroxybenzoate, and aniline analogues. The strain accomplishes this metabolic diversity by using different 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 purification 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 heterodimer ([alpha]_1[beta]_1). PCD 4,5 exhibits stringent substrate specificity for protocatechuate and its optimal activity occurs at pH 9 and 15^oC. 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.

Characterization of biphenyl biodegradation, and regulation of biphenyl catabolism in alcaligenes xylosoxydans: Lee, Na Ri , On, Hwa Young , Jeong, Min Seon , Kim, Chi Kyung , Park, Young Keun , Ka, Jong Ok , Min, Kyung Hee; J. Microbiol. 1997;35(2):141-148.

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Abstract: Alcaligenes xylosoxydans strain SMN3 capable of utilizing biphenyl grew not only on phenol, and benzoate, but also on salicylate. Catabolisms of biphenyl and salicylate appear to be interrelated since benzoate is a common metabolic intermediate of these compounds. Enzyme levels in the excatechol 2,3-dioxygenas which is meta-cleavage enzyme of catechol, but did not induce catechol 1, 2-dioxygenase. All the oxidative enzymes of biphenyl and 2,3-dihydroxybiphenyl (23DHBP) were induced when the cells were grown on biphenyl and salicylate, respectively. Biphenyl and salicylate could be a good inducer in the oxidation of biphenyl and 2, 3-dihydroxybiphenyl. The two enzymes for the degradation of biphenyl and salicylate were induced after growth on either biphenyl or salicylate, suggesting the presence of a common regulatory element. However, benzoate could not induce the enzymes responsible for the oxidation of these compounds. Biphenyl and salicylate were good inducers for indigo formation due to the activity of biphenyl dioxygenase. These results suggested that indole oxidation is a property of bacterial dioxygenase that form cis-dihydrodiols from aromatic hydrocarbon including biphenyl.

Characteristics of Catechol 2,3-dioxygenase Produced by 4-Chlorobenzoate-degrading Pseudomonas sp. S-47: Kim, Ki Pil , Seo, Dong In , Min, Kyung Hee , Ka, Jong Ok , Park, Yong Keun , Kim, Chi Kyung; J. Microbiol. 1997;35(4):295-299.

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Abstract: Pseudomonas sp. S-47 is capable of transforming 4-chlorobenzoate to 4-chlorocatechol which is subsequently oxidized bty meta-cleavage dioxygenase to prodyce 5-chloro-2-hydroxymuconic semialdehyde. Catechol 2,3-dioxygenase (C23O) produced by Pseudomonas sp. S-47 was purified and characterized in this study. The C23O enzyme was maximally produced in the late logarithmic growth phase, and the temperature and pH for maximunm enzyme activity were 30~35℃ and 7.0, respectively. The enzyme was purified and concentrated 5 fold from the crude cell extracts through Q Sepharose chromatography and Sephadex G-100 gel filtration after acetone precipitation. The enzyme was identified as consisting of 35 kDa subunits when analyzed by SDS-PAGE. The C23O produced by Pseudomonas sp. S-47 was similar to Xy1E of Pseudomonas putida with respect to substrate specificity for several catecholic compounds.

Cloning and Expression in E. coli of the Genes Responsible for Degradation of 4-Chlorobenzoate and 4-Chlorocatechol drom Pseudomonas sp. Strain S-47: Kim, Ki Pil , Seo, Dong In , Lee, Dong Hun , Kim, Young Soo , Kim, Chi Kyung; J. Microbiol. 1998;36(2):99-105.

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Abstract: Pseudomonas sp. strain S-47 can grow on 4-chlorobenzoate (4CBA) and transform 4CBA to 4-chlorocatechol (4CC) under aerobic conditions, which is subsequently degraded to produce 2-hydroxypent-2, 4-dienoate (2H-2,4DA). The upper steps for conversion of 4CBA to 4CC are recognized to be conducted by the benzoate-1,2-dioxygenase (B12O) system encoded by benABC and benD. The ensving meta-cleabage reaction of 4CC is catalyzed by catechol 2,3-dioxygenase(C23O) encoded by the xylE gene. The benABCD and the xylE genes were cloned from the chromosome of Pseudomonas sP. S-47 into pCS1(48.7kb), pCS101(24.4kb), pCS201(17.7kb), and pCS202(6.7kb) recombinant plasmids, and were well ecpressed in E. coli XL1-Blue host cells. The PstI-insert (4.0kb) of pC202 was found to contain the benABCD and cylE genes and to have 2 EcoRV, 1 SphI, and 3 SacII restriction sites.

Catabolism of 4-Hydroxybenzoic Acid by Pseudomonas sp. DJ-12: Karegoudar, Timmanagouda B. , Chae, Jong Chan , Kim, Chi Kyung; J. Microbiol. 1999;37(3):123-127.

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Abstract: A Pseudomonas sp. strain DJ-12 isolated by 4-cholrobiphenyl enrichment culture technique is capable of utilizing 4-hydroxybenzoic acid as a sole source of carbon and energy. The bacterium catabolized 4-hydroxybenzoic acid through the intermediate formation of protocatechuic acid, which was further metabolized. The cell free extracts of pseudomonas sp. DJ-12, grown on 4-hydroxybenzoic acid showed higher activities of 4-hydroxyenzoate 3-hydroxylase and protocatechuate 4,5-dioxygenase, but the activity of catechol 2,3-dioxygenase was lower. The results suggest that 4-hydroxybenzoic acid is catabolized via protocatechuic acid rather than catechol or gentisic acid in this bacterium and that the protocatechuic acid formed was metabolized through a metacleavage pathway by protocatechuate 4,5-dioxygenase.

Association of a Common Reductase with Multiple Aromatic Terminal Dioxygenases in Sphingomonas yanoikuyae Strain B1: Mihyun Bae , Eungbin Kim; J. Microbiol. 2000;38(1):40-43.

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Abstract: The aromatic dioxygenase system in Sphingomonas yanoikuyae strain B1 consists of three components, an oxygenase, a ferredoxin, and a reductase. The insertional knockout of the bphA4 gene encoding a reductase and subsequent complementation experiments showed that the reductase encoded by bphA4 in S. yanoikuyae strain B1 is associated with multiple dioxygenase components including that of toluate dioxygenase (XylXY).

Roles of the meta- and the ortho-Cleavage Pathways for the Efficient Utilization of Aromatic Hydrocarbons by Sphingomonas yanoikuyae B1: Jeongmin Song , Junghee Sung , Young Min Kim , Gerben J. Zylstra , Eungbin Kim; J. Microbiol. 2000;38(4):245-249.

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Abstract: Catabolic pathways for the degradation of various aromatics by Sphingomonas yanoikuyae B1 are intertwined, joining at the level of substituted benzoates, which are further degraded via ring cleavage reactions. The mutant strain EK497, which was constructed by deleting a large DNA region containing most of the genes for biphenyl, naphthalene, m-xylene, and m-toluate degradation, was unable to grow on all of the aromatics tested except for benzoate as the sole source of carbon and energy. S. yanoikuyae EK497 was found to possess only catechol ortho-ring cleavage activity due to deletion of the genes for the meta-cleavage pathway. Wild-type S. yanoikuyae B1 grown on benzoate has both catechol ortho-and meta-cleavage activity. However, m-xylene and m-toluate, which are metabolized through methylbenzoate, and biphenyl, which is metabolized through benzoate, induce only the meta-cleavage pathway, suggesting the presence of a substrate-dependent induction mechanism.

Cloning and Sequence Analysis of the hpaD Gene Responsible for Homoprotocatechuate 2,3-Dioxygenase from Pseudomonas sp. DJ-12: Sang-Mahn Lee , Jong-Chan Chae , Youngsoo Kim , Chi-Kyung Kim; J. Microbiol. 2001;39(4):334-337.

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Abstract: The degradative pathway of homoprotocatechuate (HPC) is the bacterial route whereby 3,4-dihydroxyphenylacetic acid is catabolized to pyruvate and succinate by a series of sequential reactions. The HPC is catalized by homoprotocatechuate 2,3-dioxygenase (HPC-2,3O) to form 5-carboxymethyl-2-hydroxy-muco semialdehyde. In this study, the hpaD gene encoding HPC-2,3O was cloned from the chromosomal DNA of Pseudomonas sp. DJ-12 and its nucleotide sequence was analyzed. The open reding frame of hpaD gene was found to be composed of 864 nucleotide pairs and to encode a polypeptide with 287 amino acid residues. The deduced amino acid sequence of the HPC-2,3O from Pseudomonas sp. DJ-12 exhibited 60~64% homology with those of the corresponding enzymes from E. coli, Salmonella enterica, and Klebsiella pneumoniae.

Cellular Responses of Pseudomonas sp. KK1 to Two-Ring Polycyclic Aromatic Hydrocarbon, Naphthalene: Hyung-Yeel Kahng; J. Microbiol. 2002;40(1):38-42.

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Abstract: The strain KK1 isolated from soil contaminated with polycyclic aromatic hydrocarbons was identified as Pseudomonas sp. based on analyses by MIDI and Biolog Identification System. Cellular and physiological responses of strain KK1 to two-ring polycyclic aromatic hydrocarbon, naphthalene were evaluated using radiorespirometry, PLFAs and sequence analysis of Rieske-type iron sulfur center of dioxygenase. KK1 was found to be able to rapidly mineralize naphthalene. Notably, KK1 cells pre-grown on phenanthrene were able to mineralize naphthalene much more rapidly than naphthalene-pregrown cells. The total cellular fatty acids of KK1 were comprised of eleven C-even and two C-odd fatty acids (fatty acids < 0.2% in abundance were not considered in this calculation). Lipids 12:0 2OH, 12:0 3OH, 16:0, 18:1 6c, 18:0 increased for naphthalene-exposed cells, while lipids 18:1 7c/15:0 iso 2OH, 17:0 cyclo, 18:1 7c, 19:0 cyclo decreased. Data from Northern hybridization using a naphthalene dixoygenase gene fragment cloned out from KK1 as a probe provided the information that naphthalene dioxygenase gene was more highly expressed in cells grown on phenanthrene than naphthalene.

Three Separate Pathways for the Initial Oxidation of Limonene, Biphenyl, and Phenol by Rhodococcus sp. Strain T104: Dockyu Kim , Min Jung Park , Sung-Cheol Koh , Jae-Seong So , Eungbin Kim; J. Microbiol. 2002;40(1):86-89.

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Abstract: Rhodococcus sp. strain T104, which is able to grow on either biphenyl or limonene, was found to utilize phenol as sole carbon and energy sources. Furthermore, T104 was positively identified to possess three separate pathways for the degradation of limonene, phenol, and biphenyl. The fact that biphenyl and limonene induced almost the same amount of catechol 1,2-dioxygenase activity indicates that limonene can induce both upper and lower pathways for biphenyl degradation by T104.

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