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ABSTRACT: Pseudomonas alcaligenes NCIMB 9867 (strain P25X) is known to synthesize two isofunctional gentisate 1,2-dioxygenases (GDO; EC 1.13.11.4) as well as other enzymes involved in the degradation of xylenols and cresols via the gentisate pathway. The hbzE gene encoding what is possibly the strictly inducible gentisate 1,2-dioxygenase II (GDO-II) was cloned, overexpressed and purified as a hexahistidine fusion protein from Escherichia coli. Active recombinant GDO-II had an estimated molecular mass of 150kDa and is likely a tetrameric protein with a subunit mass of approximately 40kDa, similar to the previously characterized gentisate 1,2-dioxygenase I (GDO-I) encoded by xlnE. However, GDO-II was unable to utilize gentisate that is substituted at the carbon-4 position, unlike GDO-I which had broader substrate specificity. GDO-II also possessed different kinetic characteristics when compared to GDO-I. The hbzE-encoded GDO-II shared higher sequence identities (53%) with GDOs from Ralstonia sp. U2 and Polaromonas naphthalenivorans CJ2, compared with only 35% identity with the xlnE-encoded GDO-I. The hbzE gene was found to be part of a cluster of nine genes including the putative regulatory gene designated hbzR, which encodes an LysR-type regulator and is divergently transcribed from the other genes of the hbzHIJKLFED cluster.
Research in Microbiology 10/2007; 158(7):608-16. · 2.76 Impact Factor
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ABSTRACT: Pseudomonas alcaligenes NCIMB 9867 (strain P25X) degrades xylenols and cresols via the gentisate pathway. P25X expresses two isofunctional gentisate 1,2-dioxygenases (GDO I and GDO II). The expression of both GDOs was not detected when P25X cells were grown at 42 degrees C, even in the presence of gentisate. A total of 19 heat shock proteins (Hsps) belonging to the Hsp100, Hsp90, Hsp70, Hsp60, Hsp45, and small heat shock protein (sHsp) families were identified among the protein spots that were either newly detected or were expressed at levels of at least twofold higher when P25X cells were cultured at 32 or 42 degrees C in the presence and absence of gentisate. Among these, 16 Hsps were commonly expressed at 42 degrees C. Two additional Hsps (H5 and H13) from the Hsp90 and Hsp60 families, respectively, were expressed only when P25X cells were grown at 42 degrees C and in the presence of gentisate. A protein of the sHsp (H16) family was expressed only in the presence of gentisate at 32 degrees C but not at 42 degrees C. The GroEL chaperonins of the Hsp60 family comprised the largest group of Hsps identified and exhibited high level of expression at 42 degrees C following gentisate exposure.
Biotechnology and Bioengineering 07/2007; 97(3):506-14. · 3.95 Impact Factor
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ABSTRACT: The xlnD gene from Pseudomonas alcaligenes NCIMB 9867 (strain P25X) was shown to encode 3-hydroxybenzoate 6-hydroxylase I, the enzyme that catalyzes the NADH-dependent conversion of 3-hydroxybenzoate to gentisate. Active recombinant XlnD was purified as a hexahistidine fusion protein from Escherichia coli, had an estimated molecular mass of 130 kDa, and is probably a trimeric protein with a subunit mass of 43 kDa. This is in contrast to the monomeric nature of the few 3-hydroxybenzoate 6-hydroxylases that have been characterized thus far. Like other 3-hydroxybenzoate 6-hydroxylases, XlnD could utilize either NADH or NADPH as the electron donor. P25X harbors a second 3-hydroxybenzoate 6-hydroxylase II that was strictly inducible by specific aromatic substrates. However, the degradation of 2,5-xylenol and 3,5-xylenol in strain P25X was found to be dependent on the xlnD-encoded 6-hydroxylase I and not the second, strictly inducible 6-hydroxylase II.
Journal of Bacteriology 12/2005; 187(22):7696-702. · 3.83 Impact Factor
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ABSTRACT: xlnE, encoding gentisate 1,2-dioxygenase (EC 1.13.11.4), from Pseudomonas alcaligenes (P25X) was mutagenized by site-directed mutagenesis. The mutant enzyme, Y181F, demonstrated 4-, 3-, 6-, and 16-fold increases in relative activity towards gentisate and 3-fluoro-, 4-methyl-, and 3-methylgentisate, respectively. The specific mutation conferred a 13-fold higher catalytic efficiency (k(cat)/Km) on Y181F towards 3-methylgentisate than that of the wild-type enzyme.
Journal of Bacteriology 12/2005; 187(21):7543-5. · 3.83 Impact Factor
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ABSTRACT: Pseudomonas alcaligenes NCIMB 9867 (strain P25X) utilizes the gentisate pathway for the degradation of aromatic hydrocarbons. The gene encoding the alternative sigma (sigma) factor sigma(54), rpoN, was cloned from strain P25X and a rpoN knock-out strain, designated G54, was constructed by insertional inactivation with a kanamycin resistance gene cassette. The role of sigma(54) in the physiological response of P. alcaligenes P25X to gentisate induction was assessed by comparing the global protein expression profiles of the wild-type P25X with the rpoN mutant strain G54. Analysis of two-dimensional polyacrylamide gel electrophoresis gels showed that 39 out of 355 prominent protein spots exhibited differential expression as a result of the insertional inactivation of rpoN. Identification of the protein spots by matrix-assisted laser desorption/ionization-time of flight/time of flight revealed a wide diversity of proteins that are affected by the sigma(54) mutation, the largest group being proteins that are involved in carbon metabolism. The strictly inducible gentisate 1,2-dioxygenase, one of two isofunctional copies of the key enzyme in the gentisate pathway, and enzymes of the TCA cycle, pyruvate metabolism and gluconeogenesis were part of this group. Other proteins that are part of the sigma(54) regulon include enzymes implicated in nitrogen metabolism, transport proteins, stress-response proteins and proteins involved in cell motility. The results of this study showed that sigma(54) plays a global regulatory role in the expression of a wide variety of genes in P. alcaligenes, including the wild-type response to the presence of the aromatic inducer, gentisate.
PROTEOMICS 06/2005; 5(7):1868-76. · 4.51 Impact Factor
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ABSTRACT: Pseudomonas alcaligenes NCIMB 9867 (strain P25X) utilizes the gentisate pathway for the degradation of aromatic hydrocarbons. The gene encoding the alternative sigma (σ) factor σ54, rpoN, was cloned from strain P25X and a rpoN knock-out strain, designated G54, was constructed by insertional inactivation with a kanamycin resistance gene cassette. The role of σ54 in the physiological response of P. alcaligenes P25X to gentisate induction was assessed by comparing the global protein expression profiles of the wild-type P25X with the rpoN mutant strain G54. Analysis of two-dimensional polyacrylamide gel electrophoresis gels showed that 39 out of 355 prominent protein spots exhibited differential expression as a result of the insertional inactivation of rpoN. Identification of the protein spots by matrix-assisted laser desorption/ionization-time of flight/time of flight revealed a wide diversity of proteins that are affected by the σ54 mutation, the largest group being proteins that are involved in carbon metabolism. The strictly inducible gentisate 1,2-dioxygenase, one of two isofunctional copies of the key enzyme in the gentisate pathway, and enzymes of the TCA cycle, pyruvate metabolism and gluconeogenesis were part of this group. Other proteins that are part of the σ54 regulon include enzymes implicated in nitrogen metabolism, transport proteins, stress-response proteins and proteins involved in cell motility. The results of this study showed that σ54 plays a global regulatory role in the expression of a wide variety of genes in P. alcaligenes, including the wild-type response to the presence of the aromatic inducer, gentisate.
Proteomics 04/2005; 5(7):1868 - 1876. · 4.43 Impact Factor
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ABSTRACT: Pseudomonas alcaligenes NCIB 9867 (P25X wild-type) is capable of degrading aromatic hydrocarbons via the gentisate pathway. Biochemical characterization of P25X mutants indicated that it has isofunctional enzymes for the mono- and dioxygenase-catalyzed reactions. One set of the enzymes is constitutive whereas the other is strictly inducible. To date, only the gene encoding the constitutively-expressed gentisate dioxygenase had been cloned and characterized. A mutant strain of P25X, designated G56, which had the constitutive copy of the gentisate 1,2-dioxygenase gene interrupted by a streptomycin/spectinomycin resistance gene cassette, was found to express gentisate dioxygenase, but only when the cells were induced by gentisate. The proteome profiles of P. alcaligenes P25X and mutant G56 cells grown in the presence and absence of gentisate were compared after two-dimensional polyacrylamide gel electrophoresis. Eight distinctive protein spots (designated M1-M8) which were observed only in induced cells of strain G56 but absent in noninduced cells were further analyzed by matrix-assisted laser desorption/ionization-time of flight, quadrupole-TOF and N-terminal sequencing. Of the 15 proteins (including seven up-regulated) examined, 13 showed sequence similarities to proteins with assigned functions in other microorganisms. The identification of protein M5 which showed high homology to a gentisate dioxygenase from Ralstonia sp. U2 indicated the putative function of this protein being consistent with the inducible gentisate 1,2-dioxygenase in P. alcaligenes. In addition, the induction of stress proteins and other adaptation phenomena were also observed.
PROTEOMICS 08/2004; 4(7):2028-36. · 4.51 Impact Factor
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ABSTRACT: Pseudomonas alcaligenes NCIMB 9867 (strain P25X) produces isofunctional enzymes of the gentisate pathway that enables the degradation of xylenols and cresols via gentisate. Previous reports had indicated that one set of enzymes is constitutively expressed whereas the other set is strictly inducible by aromatic hydrocarbon substrates. The gene encoding gentisate 1,2-dioxygenase (GDO), the enzyme that catalyzes the cleavage of the gentisate aromatic ring, was cloned from strain P25X. The GDO gene, designated xlnE, is 1,044 bp, and is part of a 5.4 kb operon which consists of six genes, xlnEFGHID. Transcription of this operon was driven by a sigma 70-type promoter, PxlnE, located 123 bp upstream of the xlnE start codon. Primer extension analysis showed that the xlnE transcription start point is located at the -87 adenine residue. In a P25X xlnE knockout mutant, GDO activity could only be detected when cells were grown in the presence of aromatic substrates, suggesting that xlnE encodes for the constitutive copy of GDO. This was verified by constructing a P25X strain with xlnE transcriptionally fused to a promoterless catechol 2,3-dioxygenase gene. In this strain, catechol 2,3-dioxygenase activity was detected in cells that were grown in the absence of aromatic inducers. However, catechol 2,3-dioxygenase activity increased up to four fold when these cells were grown in the presence of aromatic substrates, in particular 3-hydroxybenzoate. Thus, xlnE is in fact, inducible and the constitutive activity observed under non-inducing conditions was due to its relatively high basal levels of expression.
Gene 08/2003; 312:239-48. · 2.34 Impact Factor
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ABSTRACT: Group II introns isolated from Pseudomonas alcaligenes NCIB 9867, Pseudomonas putida NCIB 9869, and P. putida KT2440 were closely related with nucleotide sequence identities of between 87 and 96%. The genome of P. alcaligenes also harbored a truncated group II intron of 682 bp that lacks the gene for the intron-encoded protein (IEP). Unlike most bacterial group II introns, the Pseudomonas introns were found to lack the Zn domains in their IEPs, did not appear to interrupt any genes, and were located downstream of open reading frames which were adjacent to hairpin loop structures that resemble rho-independent terminators. These structures also contain the intron binding sites 1 and 2 (IBS1 and IBS2 sequences) that were required for intron target site recognition in transposition. One of the group II introns found in P. alcaligenes, Xln3, was shown to have transposed from the chromosome to the endogenous pRA2 plasmid at a site adjacent to IBS1- and IBS2-like sequences.
Plasmid 06/2001; · 1.52 Impact Factor
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ABSTRACT: Genes for the class IIPseudomonas alcaligenesNCIB 9867 restriction-modification (R-M) system,Pac25I, have been cloned from its 33-kb endogenous plasmid, pRA2. ThePac25I endonuclease and methylase genes were found to be aligned in a head-to-tail orientation with the methylase gene preceding and overlapping the endonuclease gene by 1 bp. The deduced amino acid sequence of thePac25I methylase revealed significant similarity with theXcyI,XmaI,Cfr9I, andSmaI methylases. High sequence similarity was displayed between thePac25I endonuclease and theXcyI,XmaI, andCfr9I endonucleases which cleave between the external cytosines of the recognition sequence (i.e., 5′-C↓CCGGG-3′) and are thus perfect isoschizomers. However, no sequence similarity was detected between thePac25I endonuclease and theSmaI endonuclease which cleaves between the internal CpG of the recognition sequence (i.e., 5′-CCC↓GGG-3′). Both thePac25I methylase and endonuclease were expressed inEscherichia coli.An open reading frame encoding a protein which shows significant similarity to invertases and resolvases was located immediately upstream of thePac25I R-M operon. In addition, a transposon designated Tn5563was located 1531 bp downstream of the R-M genes. The location on a self-transmissible plasmid as well as the close association with genes involved in DNA mobility suggests horizontal transfer as a possible mode of distribution of this family of R-M genes in various bacteria.
Plasmid 12/1998; · 1.52 Impact Factor
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ABSTRACT: The replication region of plasmid pRA2 from Pseudomonas alcaligenes NCIB 9867 (strain P25X) was localized within a 5.9-kbp DNA fragment and its sequence was determined. An interesting feature of the sequence is the presence of a 1.3-kbp region containing seven, highly conserved, direct repeats of 72 bp in length. The pRA2 replication region has two open reading frames (ORFs). ORF1 appeared to be essential for replication and had the potential to encode a novel 30-kDa protein with a predicted helix-turn-helix motif located at the C-terminal end. ORF2 was not essential for replication and may encode for a 37-kDa protein which shares 41% and 27% amino acid sequence identity to the KfrA proteins from plasmids RK2 and R751, respectively. The essential region of replication was narrowed down to 2819 nucleotides and included four of the seven 72-bp direct repeats, a potential DnaA-binding site and ORF1.
FEMS Microbiology Letters 12/1997; 158(2):159 - 165. · 2.04 Impact Factor
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ABSTRACT: A new insertion sequence, IS1491,has been cloned and sequenced. The 2489-bp IS1491was isolated from aPseudomonas alcaligenesNCIB 9867 (strain P25X) 4.8-kbPstI chromosomal fragment. IS1491is flanked by an imperfect inverted repeat of 23 bp and carries two overlapping open reading frames, ORF1 and ORF2. Both ORF1 and ORF2 displayed homology to the IstA-like and IstB-like transposases encoded by the IS21family of insertion sequences, which include two IS elements previously isolated fromP. alcaligenesP25X, IS1474,and IS1475(Yeo, C. C., and Poh, C. L. (1997).FEMS Microbiol. Lett.149,257–263). Transposition assays showed that IS1491transposed at a frequency of approximately 1.4 × 10−6. Transposition of IS1491into the target pRK415 replicon was observed but when ORF2 was disrupted, a fusion between the donor and target replicons was detected. IS1491-like sequences were detected in total DNA ofPseudomonas putidaNCIB 9869 (strain P35X),Pseudomonas aeruginosa, Pseudomonas stutzeri, Pseudomonas syringae, Pseudomonas mendocina, Comomonas acidovorans,andComomonas testosteroniby hybridization with IS1491DNA.
Plasmid 39(3):187-195. · 1.52 Impact Factor
