• Korean Journal of Microbiology
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• v.30 no.1
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• pp.1-7
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• 1992

We cloned a gene cluster encoding phenanthrene-degrading enzymes on a 6.8-kb Xhol fragment from the Pseudomonas sp. DJ77 chromosomal DNA into the vector pBLUESCRIPT SIC(+). The resultant clone, containing the recombinant plilsmid pHENX7, was able to convert 3-methylcatechol to a yellow mela-cleavage compound. Since the pHENX7R in which the DNA insert was cloned in the opposite orientation lacked extradiol dioxygenase activity. the direction of transcription was established. Four polypeptides, PhnC (24 kDa). PhnD (31 kDa), PhnE (34 kDa). and PhnF (15 kDa), were identified in E coli JM101 transformed with several pHENX7-derived plasmids. The locations and extents of ~ndividual genes were determined by subcloning. The gene order was phnC-phnD-phnE-phnF-phnG, and phnC, phnD, phnE, and phnG genes encoded glutathione S-transferase, mrta-cleavage compound hydrolase, extradiol dioxygenase, mera-cleavage compound dehydrogenase, respectively.

• Korean Journal of Microbiology
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• v.33 no.2
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• pp.92-96
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• 1997

The 6.8 kb Xhol fragment of chromosomal ONA of Pseudomonas sp. 0177 contains the phnDEFG genes involved in the degradation of polyaromatic hydrocarbons and chlorinated aromatics. Here, we report the nucleotide sequence of the ORF encoding a polypeptide consisted of 143 amino acids with a Mr of 13,859. The nucleotide sequence of the ORF is 99% and 68.6% identical to the downstream region of catE of Sphingomonas sp. strain HV3 and the ORF between xylE and xylG of Sphingomonas yanoikuyae Bl, respectively. The deduced amino acid sequence of the PhnF has 62.3% identity with the amino acid encoded hy orfY region of Citrobacter freundii DSM30040. We now confirm that the ORF is located between the catechol 2,3-dioxygenase (C230), phnE, and 2-hydroxymuconic semialdehyde dehydrogenase (2HMSO), phnG.

• Korean Journal of Microbiology
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• v.39 no.3
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• pp.123-127
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• 2003

Sphingomonas chungbukensis DJ77 is able to metabolize phenanthrene as the sole carbon and energy source. The plasmid pUPX5 includes phnS gene encoding 2-hydroxychromene-2-carboxylate (HCCA) isomerase, which is needed for phenanthrene and naphthanene degradation. We determined the nucleotide sequence of DNA fragment of 3271 bp which included the phnS gene. The fragment included an open reading frame of 594 bp which has ATG initiation codon and TAA termination codon and GGAA ribosomal binding site. The predicted amino acid sequence of the enzyme consists of 198 amino acids. The deduced amino acid sequence of the phnS enzyme exhibited 94％ identity with that of the corresponding enzyme in Sphingomonas aromaticivorans F199. The phnS gene is located downstream and in the same operon as phnQ and phnR, encoding a 2,3-dihydroxybiphenyl 1,2-dioxygenase and a ferredoxin component of biphenyl dioxygenase, respectively.

• Korean Journal of Microbiology
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• v.29 no.6
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• pp.392-396
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• 1991

Mu d1(Ap lac) bacteriophage can be used to search for genes which are members of a common regulatory network without having to know the functions of the genes in advance. Aim was for obtaining the loci in the SOS network as well as temperature inducible loci. For this purpose, recA441 allele was used. This allele encodes a thermosensitive recA gene product; thus, the recA441 allele can be activated upon temperature upshift without by external DNA damage. Approximately 10, 000 colonies were screened, and then searched for the colonies which expressed .betha.-galactosidase higher level at 42.deg.C than at 30.deg.C. The strains identified fell into two dlasses; (i) ones in which the increased expression was $recA^{+}$ $lexA^{+}$ -dependent, that is, din(damage-inducible) genes which were due to the activation of recA441 allele and (ii) ones in which the increased expression was $recA^{+}$ $lexA^{+}$ -independent and only temperature-inducible, tin genes. Rough mapping position was obtained for these genes.

• Journal of Microbiology and Biotechnology
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• v.12 no.5
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• pp.729-734
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• 2002

Radiorespirometric analysis revealed that Pseudomonas sp. strain KKI isolated from a soil contaminated with petroleum hydrocarbons was able to catabolize polycyclic aromatic hydrocarbons such as phenanthrene and naphthalene. The rate and extent of phenanthrene mineralization was markedly enhanced when the cells were pregrown on either naphthalene or phenanthrene, compared to the cells grown on universal carbon sources (i.e., TSA medium). Deduced amino acid sequence of the Rieske-type iron-sulfur center of a putative phenanthrene dioxygenase (PhnAl) obtained from the strain KKI shared significant homology with DxnAl (dioxin dioxygenase) from Spingomonas sp. RW1, BphA1b (biphenyl dioxygenase) from Spingomonas aromaticivorans F199, and PhnAc (phenanthrene diokygenase) from Burkholderia sp. RP007 or Alcaligenes faecalis AFK2. Northern hybridization using the dioxygenase gene fragment cloned from KKI showed that the expression of the putative phn dioxygenase gene reached the highest level in cells grown in the minimal medium containing phenanthrene and $KNO_3$, and the expression of the phn gene was repressed in cells grown with glucose. In addition to the metabolic change, phospholipid ester-linked fatty acids (PLFA) analysis revealed that the total cellular fatty acid composition of KKI was significantly changed in response to phenanthrene. Fatty acids such as 14:0, 16:0 3OH, 17:0 cyclo, 18:1$\omega$7c, 19:0 cyclo increased in phenanthrene-exposed cells, while fatty acids such as 10:0 3OH, 12:0, 12:0 2OH, 12:0 3OH, 16:1$\omega$7c, 15:0 iso 2OH, 16:0, 18:1$\omega$6c, 18:0 decreased.