Masataka Tsuda

Publications

• 3.03

  Impact points

  Suppression of pleiotrophic phenotypes of Burkholderia multivorans fur mutant by oxyR mutation.

  Akane Kimura, Satoshi Yuhara, Yoshiyuki Ohtsubo, Yuji Nagata, Masataka Tsuda

  Microbiology (Reading, England). 02/2012;

  Fur (ferric uptake regulator) is an iron-responsive transcriptional regulator in many bacterial species, and the fur mutant of Burkholderia multivorans ATCC 17616 exhibits pleiotropic phenotypes such as an inability to efficiently use several carbon sources as well as high sensitivity to hydrogen pe... [more] Fur (ferric uptake regulator) is an iron-responsive transcriptional regulator in many bacterial species, and the fur mutant of Burkholderia multivorans ATCC 17616 exhibits pleiotropic phenotypes such as an inability to efficiently use several carbon sources as well as high sensitivity to hydrogen peroxide (H2O2), paraquat (a superoxide-producing compound), and nitric oxide (NO). To gain more insight into the pleiotropic role of the Fur protein of ATCC 17616, spontaneous suppressor mutants of the ATCC 17616 fur mutant that restored tolerance to NO were isolated and characterized in this study. The microarray-based comparative genomic analysis and subsequent sequencing analysis indicated that such suppressor mutants had a two-base deletion in the oxyR gene, whose orthologs encode H2O2 -responsive transcriptional regulators in other bacterial species. The suppressor mutants and the reconstructed fur-oxyR double-deletion mutant showed indistinguishable phenotypes in that they were all (i) more resistant than the fur mutant to H2O2, superoxide, NO, and streptonigrin (an iron-activated antibiotic), and (ii) able to use carbon sources that cannot efficiently support the growth of the fur mutant. These results clearly indicate that the oxyR mutation suppressed the pleiotropic effect of the B. multivorans fur mutant. The fur-oxyR double mutants were found to overexpress the KatG (catalase/peroxidase) and AhpC1 and AhpD (alkyl hydroperoxide reductase subunits C and D) proteins, and their enzymatic activities to remove reactive oxygen and nitrogen species were suggested to be responsible for the suppression of phenotypes caused by the fur mutation.
• 2.20

  Impact points

  Pivotal role of anthranilate dioxygenase genes in the adaptation of Burkholderia multivorans ATCC 17616 in soil.

  Eri Nishiyama, Yoshiyuki Ohtsubo, Yasuhiro Yamamoto, Yuji Nagata, Masataka Tsuda

  FEMS microbiology letters. 02/2012; 330(1):46-55.

  In our recent screen for soil-induced genes, the expression of andA operon (andAcAdAbAa) for anthranilate catabolism in Burkholderia multivorans ATCC 17616 was found to increase dramatically in a soil sample (Nishiyama et al., Environ Microbiol 12: 2539, 2010). The operon was preceded by andR encodi... [more] In our recent screen for soil-induced genes, the expression of andA operon (andAcAdAbAa) for anthranilate catabolism in Burkholderia multivorans ATCC 17616 was found to increase dramatically in a soil sample (Nishiyama et al., Environ Microbiol 12: 2539, 2010). The operon was preceded by andR encoding a putative transcriptional regulator for the andA operon. In this study, the andA promoter was induced by tryptophan and anthranilate in an andR-dependent manner. The andA promoter in a deletion mutant lacking tryptophan dioxygenase (one of enzymes for the catabolism of tryptophan to anthranilate) did not respond to tryptophan, indicating that not tryptophan but anthranilate is the effector of AndR. Although both anthranilate and tryptophan were under the detection levels in the soil sample, andA promoter showed higher activity in the soil sample than in a laboratory medium. Such induction required andR and was moderately dependent on the ferric uptake regulator (Fur). The proliferation ability of andAc mutant in the sterile soil was low compared with the co-incubated wild-type cells. These findings suggested that in the soil environment, anthranilate dioxygenase genes are induced by AndR and Fur, and play a pivotal role in the proliferation in the soil environment.

• Genomic organization and genomic structural rearrangements of Sphingobium japonicum UT26, an archetypal γ-hexachlorocyclohexane-degrading bacterium.

  Yuji Nagata, Shunsuke Natsui, Ryo Endo, Yoshiyuki Ohtsubo, Natsuko Ichikawa, Akiho Ankai, Akio Oguchi, Shigehiro Fukui, Nobuyuki Fujita, Masataka Tsuda

  Enzyme and microbial technology. 12/2011; 49(6-7):499-508.

  The complete genome sequencing of a γ-hexachlorocyclohexane-degrading strain, Sphingobium japonicum UT26, revealed that the genome consists of two circular chromosomes [with sizes of 3.5 Mb (Chr1) and 682kb (Chr2)], a 191-kb large plasmid (pCHQ1), and two small plasmids with sizes of 32 and 5kb. The... [more] The complete genome sequencing of a γ-hexachlorocyclohexane-degrading strain, Sphingobium japonicum UT26, revealed that the genome consists of two circular chromosomes [with sizes of 3.5 Mb (Chr1) and 682kb (Chr2)], a 191-kb large plasmid (pCHQ1), and two small plasmids with sizes of 32 and 5kb. The lin genes are dispersed on Chr1, Chr2, and pCHQ1. Comparison of the UT26 genome with those of other sphingomonad strains demonstrated that the "specific"lin genes for conversion of γ-HCH to β-ketoadipate (linA, linB, linC, linRED, and linF) are located on the DNA regions unique to the UT26 genome, suggesting the acquisition of these lin genes by horizontal transfer events. On the other hand, linGHIJ and linKLMN are located on the regions conserved in the genomes of sphingomonads, suggesting that the linGHIJ-encoded β-ketoadipate pathway and the LinKLMN-type ABC transporter system are involved in core functions of sphingomonads. Based on these results, we propose a hypothesis that UT26 was created by recruiting the specific lin genes into a strain having core functions of sphingomonads. Most of the specific lin genes in UT26 are associated with IS6100. Our analysis of spontaneous linA-, linC-, and linRED-deletion mutants of UT26 revealed the involvement of IS6100 in their deduced genome rearrangements. These facts strongly suggest that IS6100 plays important roles both in the dissemination of the specific lin genes and in the genome rearrangements.
• 1.33

  Impact points

  The lin genes for γ-hexachlorocyclohexane degradation in Sphingomonas sp. MM-1 proved to be dispersed across multiple plasmids.

  Michiro Tabata, Ryo Endo, Michihiro Ito, Yoshiyuki Ohtsubo, Ashwani Kumar, Masataka Tsuda, Yuji Nagata

  Bioscience, biotechnology, and biochemistry. 03/2011; 75(3):466-72.

  A γ-hexachlorocyclohexane (HCH)-degrading bacterium, Sphingomonas sp. MM-1, was isolated from soil contaminated with HCH isomers. Cultivation of MM-1 in the presence of γ-HCH led to the detection of five γ-HCH metabolites, γ-pentachlorocyclohexene, 2,5-dichloro-2,5-cyclohexadiene-1,4-diol, 2,5-dichl... [more] A γ-hexachlorocyclohexane (HCH)-degrading bacterium, Sphingomonas sp. MM-1, was isolated from soil contaminated with HCH isomers. Cultivation of MM-1 in the presence of γ-HCH led to the detection of five γ-HCH metabolites, γ-pentachlorocyclohexene, 2,5-dichloro-2,5-cyclohexadiene-1,4-diol, 2,5-dichlorohydroquinone, 1,2,4-trichlorobenzene, and 2,5-dichlorophenol, strongly suggesting that MM-1 has the lin genes for γ-HCH degradation originally identified in the well-studied γ-HCH-degrading strain Sphingobium japonicum UT26. Southern blot, PCR amplification, and sequencing analyses indicated that MM-1 has seven lin genes for the conversion of γ-HCH to β-ketoadipate (six structural genes, linA to linF, and one regulatory gene, linR). MM-1 carried four plasmids, of 200, 50, 40, and 30 kb. Southern blot analysis revealed that all seven lin genes were dispersed across three of the four plasmids, and that IS6100, often found close to the lin genes, was present on all four plasmids.
• 3.94

  Impact points

  Complete genome sequence of the representative γ-hexachlorocyclohexane-degrading bacterium Sphingobium japonicum UT26.

  Yuji Nagata, Yoshiyuki Ohtsubo, Ryo Endo, Natsuko Ichikawa, Akiho Ankai, Akio Oguchi, Shigehiro Fukui, Nobuyuki Fujita, Masataka Tsuda

  Journal of bacteriology. 11/2010; 192(21):5852-3.

  Sphingobium japonicum strain UT26 utilizes γ-hexachlorocyclohexane (γ-HCH), a man-made chlorinated pesticide that causes serious environmental problems due to its toxicity and long persistence, as a sole source of carbon and energy. Here, we report the complete genome sequence of UT26, which consist... [more] Sphingobium japonicum strain UT26 utilizes γ-hexachlorocyclohexane (γ-HCH), a man-made chlorinated pesticide that causes serious environmental problems due to its toxicity and long persistence, as a sole source of carbon and energy. Here, we report the complete genome sequence of UT26, which consists of two chromosomes and three plasmids. The 15 lin genes involved in γ-HCH degradation are dispersed on the two chromosomes and one of the three plasmids.
• 3.94

  Impact points

  Complete nucleotide sequence of TOL plasmid pDK1 provides evidence for evolutionary history of IncP-7 catabolic plasmids.

  Hirokazu Yano, Masatoshi Miyakoshi, Kenshiro Ohshima, Michiro Tabata, Yuji Nagata, Masahira Hattori, Masataka Tsuda

  Journal of bacteriology. 09/2010; 192(17):4337-47.

  To understand the mechanisms for structural diversification of Pseudomonas-derived toluene-catabolic (TOL) plasmids, the complete sequence of a self-transmissible plasmid pDK1 with a size of 128,921 bp from Pseudomonas putida HS1 was determined. Comparative analysis revealed that (i) pDK1 consisted ... [more] To understand the mechanisms for structural diversification of Pseudomonas-derived toluene-catabolic (TOL) plasmids, the complete sequence of a self-transmissible plasmid pDK1 with a size of 128,921 bp from Pseudomonas putida HS1 was determined. Comparative analysis revealed that (i) pDK1 consisted of a 75.6-kb IncP-7 plasmid backbone and 53.2-kb accessory gene segments that were bounded by transposon-associated regions, (ii) the genes for conjugative transfer of pDK1 were highly similar to those of MOB(H) group of mobilizable plasmids, and (iii) the toluene-catabolic (xyl) gene clusters of pDK1 were derived through homologous recombination, transposition, and site-specific recombination from the xyl gene clusters homologous to another TOL plasmid, pWW53. The minireplicons of pDK1 and its related IncP-7 plasmids, pWW53 and pCAR1, that contain replication and partition genes were maintained in all of six Pseudomonas strains tested, but not in alpha- or betaproteobacterial strains. The recipient host range of conjugative transfer of pDK1 was, however, limited to two Pseudomonas strains. These results indicate that IncP-7 plasmids are essentially narrow-host-range and self-transmissible plasmids that encode MOB(H) group-related transfer functions and that the host range of IncP-7-specified conjugative transfer was, unlike the situation in other well-known plasmids, narrower than that of its replication.
• 5.50

  Impact points

  Identification of Burkholderia multivorans ATCC 17616 genes induced in soil environment by in vivo expression technology.

  Eri Nishiyama, Yoshiyuki Ohtsubo, Yuji Nagata, Masataka Tsuda

  Environmental microbiology. 04/2010; 12(9):2539-58.

  Burkholderia multivorans ATCC 17616 was originally isolated from a soil sample, and it carries three chromosomes. To identify traits of likely adaptive significance for colonization of soil, an in vivo expression technology system for ATCC 17616 was constructed using the promoterless and tandemly ar... [more] Burkholderia multivorans ATCC 17616 was originally isolated from a soil sample, and it carries three chromosomes. To identify traits of likely adaptive significance for colonization of soil, an in vivo expression technology system for ATCC 17616 was constructed using the promoterless and tandemly arranged dapB and lacZ genes as the reporters, and this system was applied to identify the genomic loci of ATCC 17616 that were induced in sterilized soil. Our screening of a library consisting of dapB-lacZ-inserted clones resulted in the isolation of 713 clones in which the insertion sites of genome were putatively transcribed in the soil but not in laboratory media. All insertion sites in the genome were determined by high-throughput sequencing using genomic DNA as the templates, and subsequent analysis led to a reliable list of a total of 116 genomic loci as the B. multivorans ATCC 17616 loci induced in a soil environment (mls). These 116 mls carried the genes for energy acquisition from various substances, as well as genes for cell-envelope integrity and the niche adaptation. The distribution of these loci was biased to the second chromosome, suggesting the importance of this replicon as a source of adaptive traits enhancing survival of this organism in natural environments.
• 2.90

  Impact points

  Analysis of extracellular alginate lyase and its gene from a marine bacterial strain, Pseudoalteromonas atlantica AR06.

  Ryoji Matsushima, Hiroko Danno, Motoharu Uchida, Kenji Ishihara, Toshiyuki Suzuki, Masaki Kaneniwa, Yoshiyuki Ohtsubo, Yuji Nagata, Masataka Tsuda

  Applied microbiology and biotechnology. 10/2009;

  Pseudoalteromonas atlantica AR06 is a marine bacterial strain that can utilize alginate as a sole source of carbon and energy. The extracellular protein fraction prepared from the AR06 cultivation media exhibited alginate lyase activity to depolymerize the alginate molecules having homopolymeric and... [more] Pseudoalteromonas atlantica AR06 is a marine bacterial strain that can utilize alginate as a sole source of carbon and energy. The extracellular protein fraction prepared from the AR06 cultivation media exhibited alginate lyase activity to depolymerize the alginate molecules having homopolymeric and heteropolymeric forms of mannuronate and guluronate so as to mainly convert into the dimer to tetramer. A DNA fragment encoding a portion of alginate lyase was amplified from AR06 genomic DNA by PCR using a set of degenerated primers, and then the whole alginate lyase gene, named alyA, and its flanking regions were obtained from a cosmid library of AR06 genomic DNA. The alyA mutant of AR06 showed (1) the loss of alginate depolymerization activity on alginate agar plate and (2) significant growth defects in alginate minimal medium; these defects were complemented by the introduction of the alyA gene. Furthermore, zymography and biochemical analyses revealed that three extracellular protein bands of AR06 had alginate lyase activities and that all three protein bands were derived from the nascent alyA gene product. These results clearly indicated that the alyA gene greatly contributes to the assimilation of alginate in AR06. The transcription of the alyA gene was induced by the presence of alginate in minimal medium, but its obvious induction was not observed in rich medium even in the presence of alginate.
• 16.06

  Impact points

  Redesigning dehalogenase access tunnels as a strategy for degrading an anthropogenic substrate.

  Martina Pavlova, Martin Klvana, Zbynek Prokop, Radka Chaloupkova, Pavel Banas, Michal Otyepka, Rebecca C Wade, Masataka Tsuda, Yuji Nagata, Jiri Damborsky

  Nature chemical biology. 09/2009;

  Engineering enzymes to degrade anthropogenic compounds efficiently is challenging. We obtained Rhodococcus rhodochrous haloalkane dehalogenase mutants with up to 32-fold higher activity than wild type toward the toxic, recalcitrant anthropogenic compound 1,2,3-trichloropropane (TCP) using a new stra... [more] Engineering enzymes to degrade anthropogenic compounds efficiently is challenging. We obtained Rhodococcus rhodochrous haloalkane dehalogenase mutants with up to 32-fold higher activity than wild type toward the toxic, recalcitrant anthropogenic compound 1,2,3-trichloropropane (TCP) using a new strategy. We identified key residues in access tunnels connecting the buried active site with bulk solvent by rational design and randomized them by directed evolution. The most active mutant has large aromatic residues at two out of three randomized positions and two positions modified by site-directed mutagenesis. These changes apparently enhance activity with TCP by decreasing accessibility of the active site for water molecules, thereby promoting activated complex formation. Kinetic analyses confirmed that the mutations improved carbon-halogen bond cleavage and shifted the rate-limiting step to the release of products. Engineering access tunnels by combining computer-assisted protein design with directed evolution may be a valuable strategy for refining catalytic properties of enzymes with buried active sites.
• 6.40

  Impact points

  Novel organization of aromatic degradation pathway genes in a microbial community as revealed by metagenomic analysis.

  Hikaru Suenaga, Yoshinori Koyama, Masatoshi Miyakoshi, Ryo Miyazaki, Hirokazu Yano, Masahiro Sota, Yoshiyuki Ohtsubo, Masataka Tsuda, Kentaro Miyazaki

  The ISME journal. 08/2009;

  Several types of environmental bacteria that can aerobically degrade various aromatic compounds have been identified. The catabolic genes in these bacteria have generally been found to form operons, which promote efficient and complete degradation. However, little is known about the degradation path... [more] Several types of environmental bacteria that can aerobically degrade various aromatic compounds have been identified. The catabolic genes in these bacteria have generally been found to form operons, which promote efficient and complete degradation. However, little is known about the degradation pathways in bacteria that are difficult to culture in the laboratory. By functionally screening a metagenomic library created from activated sludge, we had earlier identified 91 fosmid clones carrying genes for extradiol dioxygenase (EDO), a key enzyme in the degradation of aromatic compounds. In this study, we analyzed 38 of these fosmids for the presence and organization of novel genes for aromatics degradation. Only two of the metagenomic clones contained complete degradation pathways similar to those found in known aromatic compound-utilizing bacteria. The rest of the clones contained only subsets of the pathway genes, with novel gene arrangements. A circular 36.7-kb DNA form was assembled from the sequences of clones carrying genes belonging to a novel EDO subfamily. This plasmid-like DNA form, designated pSKYE1, possessed genes for DNA replication and stable maintenance as well as a small set of genes for phenol degradation; the encoded enzymes, phenol hydroxylase and EDO, are capable of the detoxification of aromatic compounds. This gene set was found in 20 of the 38 analyzed clones, suggesting that this 'detoxification apparatus' may be widespread in the environment.The ISME Journal advance online publication, 9 July 2009; doi:10.1038/ismej.2009.76.
• 3.43

  Impact points

  GenomeMatcher: A graphical user interface for DNA sequence comparison.

  Yoshiyuki Ohtsubo, Wakako Ikeda-Ohtsubo, Yuji Nagata, Masataka Tsuda

  BMC bioinformatics. 10/2008; 9(1):376.

  ABSTRACT: BACKGROUND: The number of available genome sequences is increasing, and easy-to-use software that enables efficient comparative analysis is needed. RESULTS: We developed GenomeMatcher, a stand-alone software package for Mac OS X. GenomeMatcher executes BLAST and MUMmer, and the detected si... [more] ABSTRACT: BACKGROUND: The number of available genome sequences is increasing, and easy-to-use software that enables efficient comparative analysis is needed. RESULTS: We developed GenomeMatcher, a stand-alone software package for Mac OS X. GenomeMatcher executes BLAST and MUMmer, and the detected similarities are displayed in two-dimensional and parallel views with similarity values indicated by color. Selection and re-computation of any subregions is easily performed and allows flexible and in-depth analysis. Furthermore, symbols for annotation data are displayed along the views, and the user can relate the genomic differences with annotation data. While bl2seq allows sub-Giga base comparison, three alignment programs, bl2seq, MAFFT and ClustalW, together with a dotmatch program allow comparative analysis of single- nucleotide level resolution. GenomeMatcher images can be saved as PDF and TIFF files for presentation. As examples of graphical ability of GenomeMatcher to show similarity in colors, we show two cases in Burkholderia and Vivrio strains that the nucleotide sequence of the second largest chromosome changes more rapidly than the largest chromosome. CONCLUSIONS: GenomeMatcher is efficient and easy-to-use stand-alone software for in-depth comparative analysis of two sequences. GenomeMatcher is useful for detecting similarities in DNA sequences ranging in size from a few to sub-Giga bases.
• 4.92

  Impact points

  Construction of signature-tagged mutant library in Mesorhizobium loti as a powerful tool for functional genomics.

  Yoshikazu Shimoda, Hisayuki Mitsui, Hiroko Kamimatsuse, Kiwamu Minamisawa, Eri Nishiyama, Yoshiyuki Ohtsubo, Yuji Nagata, Masataka Tsuda, Sayaka Shinpo, Akiko Watanabe, Mitsuyo Kohara, Manabu Yamada, Yasukazu Nakamura, Satoshi Tabata, Shusei Sato

  DNA research : an international journal for rapid publication of reports on genes and genomes. 10/2008; 15(5):297-308.

  Rhizobia are nitrogen-fixing soil bacteria that establish endosymbiosis with some leguminous plants. The completion of several rhizobial genome sequences provides opportunities for genome-wide functional studies of the physiological roles of many rhizobial genes. In order to carry out genome-wide ph... [more] Rhizobia are nitrogen-fixing soil bacteria that establish endosymbiosis with some leguminous plants. The completion of several rhizobial genome sequences provides opportunities for genome-wide functional studies of the physiological roles of many rhizobial genes. In order to carry out genome-wide phenotypic screenings, we have constructed a large mutant library of the nitrogen-fixing symbiotic bacterium, Mesorhizobium loti, by transposon mutagenesis. Transposon insertion mutants were generated using the signature-tagged mutagenesis (STM) technique and a total of 29,330 independent mutants were obtained. Along with the collection of transposon mutants, we have determined the transposon insertion sites for 7892 clones, and confirmed insertions in 3680 non-redundant M. loti genes (50.5% of the total number of M. loti genes). Transposon insertions were randomly distributed throughout the M. loti genome without any bias toward G+C contents of insertion target sites and transposon plasmids used for the mutagenesis. We also show the utility of STM mutants by examining the specificity of signature tags and test screenings for growth- and nodulation-deficient mutants. This defined mutant library allows for genome-wide forward- and reverse-genetic functional studies of M. loti and will serve as an invaluable resource for researchers to further our understanding of rhizobial biology.
• 1.82

  Impact points

  Revised nomenclature for transposable genetic elements.

  Adam P Roberts, Michael Chandler, Patrice Courvalin, Gérard Guédon, Peter Mullany, Tony Pembroke, Julian I Rood, C Jeffery Smith, Anne O Summers, Masataka Tsuda, Douglas E Berg

  Plasmid. 10/2008;

  Transposable DNA elements occur naturally in the genomes of nearly all species of prokaryotes. A proposal for a uniform transposable element nomenclature was published prominently in the 1970s but is not, at present, available online even in abstract form, and many of the newly discovered elements h... [more] Transposable DNA elements occur naturally in the genomes of nearly all species of prokaryotes. A proposal for a uniform transposable element nomenclature was published prominently in the 1970s but is not, at present, available online even in abstract form, and many of the newly discovered elements have been named without reference to it. We propose here an updated version of the original nomenclature system for all of the various types of prokaryotic, autonomous, transposable elements excluding insertion sequences, for which a nomenclature system already exists. The use of this inclusive and sequential Tn numbering system for transposable elements described here recognizes the ease of interspecies spread of individual elements, and allows for the naming of mosaic elements containing segments from two or more previously described types of transposons or plasmids. It will guard against a future necessity to rename elements following changes in bacterial nomenclature which occurs constantly with our increased understanding of bacterial phylogenies and taxonomic groupings. It also takes into account the increasing importance of metagenomic sequencing projects and the continued identification of new mobile elements from unknown hosts.
• 3.94

  Impact points

  Characterization of the traD Operon of Naphthalene-Catabolic Plasmid NAH7: a Host-Range Modifier in Conjugative Transfer.

  Ryo Miyazaki, Yoshiyuki Ohtsubo, Yuji Nagata, Masataka Tsuda

  Journal of bacteriology. 09/2008;

  Pseudomonas putida G7 carries a naphthalene-catabolic and self-transmissible plasmid, NAH7, which belongs to the IncP-9 incompatibility group. Adjacent to the putative origin of conjugative transfer (oriT) of NAH7 are situated three genes, traD, traE, and traF, whose functions and roles in conjugati... [more] Pseudomonas putida G7 carries a naphthalene-catabolic and self-transmissible plasmid, NAH7, which belongs to the IncP-9 incompatibility group. Adjacent to the putative origin of conjugative transfer (oriT) of NAH7 are situated three genes, traD, traE, and traF, whose functions and roles in conjugation had remained unclear. These three genes were transcribed monocistronically and thus termed the traD operon. The mutations of the three genes in the traD operon resulted in 10- to 10(5)-fold decreases in the transfer frequencies of the plasmids from Pseudomonas to Pseudomonas/Escherichia coli and from E. coli to E. coli. On the other hand, the traD operon was essential for the transfer of NAH7 from E. coli to Pseudomonas strains. These results indicated that the traD operon is a host-range modifier in the conjugative transfer of NAH7. The TraD, TraE, and TraF proteins were localized in the cytoplasm, periplasm, and membrane, respectively, in the G7 cells. Our use of a bacterial two-hybrid assay system showed that TraE interacted in vivo with other essential components for conjugative transfer: TraB (coupling protein), TraC (relaxase), and MpfH (a channel subunit in the mating-pair formation system).
• 2.90

  Impact points

  Insertion sequence-based cassette PCR: cultivation-independent isolation of gamma-hexachlorocyclohexane-degrading genes from soil DNA.

  Genki Fuchu, Yoshiyuki Ohtsubo, Michihiro Ito, Ryo Miyazaki, Akira Ono, Yuji Nagata, Masataka Tsuda

  Applied microbiology and biotechnology. 07/2008; 79(4):627-32.

  gamma-Hexachlorocyclohexane (gamma-HCH) is a highly chlorinated pesticide that has caused serious environmental problems. Based on the frequently observed association of insertion sequence IS6100 with lin genes for gamma-HCH degradation in several gamma-HCH-degrading bacterial strains isolated to da... [more] gamma-Hexachlorocyclohexane (gamma-HCH) is a highly chlorinated pesticide that has caused serious environmental problems. Based on the frequently observed association of insertion sequence IS6100 with lin genes for gamma-HCH degradation in several gamma-HCH-degrading bacterial strains isolated to date, DNA fragments flanked by two copies of IS6100 were amplified by nested polymerase chain reaction (PCR) technique using a DNA sample extracted from soil contaminated with HCH. Four distinct DNA fragments with sizes of 6.6, 2.6, 1.6, and 1.3 kb were obtained, three of which carried lin genes: the 6.6-kb fragment carried linD and linE as well as linR; the 2.6-kb fragment showed a truncated form of linF; and the 1.6-kb fragment carried linB. Our approach, named as insertion sequence (IS)-based cassette PCR, was successful in the isolation of the lin genes from HCH-contaminated soil without cultivation of host cells and is applicable for the culture-independent isolation of other functional genes bordered by other IS elements.
• 3.03

  Impact points

  Pleiotropic roles of iron-responsive transcriptional regulator Fur in Burkholderia multivorans.

  Satoshi Yuhara, Harunobu Komatsu, Hiroyuki Goto, Yoshiyuki Ohtsubo, Yuji Nagata, Masataka Tsuda

  Microbiology (Reading, England). 06/2008; 154(Pt 6):1763-74.

  The fur (ferric uptake regulator) gene of Burkholderia multivorans ATCC 17616 was identified by transposon mutagenesis analysis. The fur deletion mutant of strain ATCC 17616 (i) constitutively produced siderophores, (ii) was more sensitive to reactive oxygen species (ROS) than the wild-type strain, ... [more] The fur (ferric uptake regulator) gene of Burkholderia multivorans ATCC 17616 was identified by transposon mutagenesis analysis. The fur deletion mutant of strain ATCC 17616 (i) constitutively produced siderophores, (ii) was more sensitive to reactive oxygen species (ROS) than the wild-type strain, (iii) showed lower superoxide dismutase and catalase activities than the wild-type strain, (iv) was unable to grow on M9 minimal agar plates containing several substrates that can be used as sole carbon sources by the wild-type strain, and (v) was hypersensitive to nitrite and nitric oxide under microaerobic and aerobic conditions, respectively. These results clearly indicate that the Fur protein in strain ATCC 17616 plays pleiotropic roles in iron homeostasis, removal and/or resistance to ROS and nitrosative stress, and energy metabolism. Furthermore, employment of an in vivo Fur titration assay system led to the isolation from the ATCC 17616 genome of 13 Fur-binding DNA regions, and a subsequent electrophoretic mobility-shift assay confirmed the direct binding of Fur protein to all of these DNA regions. Transcriptional analysis of the genes located just downstream of the Fur-binding sites demonstrated that Fur acts as a repressor for these genes. Nine of the 13 regions were presumed to be involved in the acquisition and utilization of iron.
• 1.93

  Impact points

  Degradation of beta-hexachlorocyclohexane by haloalkane dehalogenase LinB from gamma-hexachlorocyclohexane-utilizing bacterium Sphingobium sp. MI1205.

  Michihiro Ito, Zbynek Prokop, Martin Klvana, Yoshiyuki Otsubo, Masataka Tsuda, Jirí Damborský, Yuji Nagata

  Archives of microbiology. 11/2007; 188(4):313-25.

  The technical formulation of hexachlorocyclohexane (HCH) mainly consists of the insecticidal gamma-isomer and noninsecticidal alpha-, beta-, and delta-isomers, among which beta-HCH is the most recalcitrant and has caused serious environmental problems. A gamma-HCH-utilizing bacterial strain, Sphingo... [more] The technical formulation of hexachlorocyclohexane (HCH) mainly consists of the insecticidal gamma-isomer and noninsecticidal alpha-, beta-, and delta-isomers, among which beta-HCH is the most recalcitrant and has caused serious environmental problems. A gamma-HCH-utilizing bacterial strain, Sphingobium sp. MI1205, was isolated from soil which had been contaminated with HCH isomers. This strain degraded beta-HCH more rapidly than the well-characterized gamma-HCH-utilizing strain Sphingobium japonicum UT26. In MI1205, beta-HCH was converted to 2,3,5,6-tetrachlorocyclohexane-1,4-diol (TCDL) via 2,3,4,5,6-pentachlorocyclohexanol (PCHL). A haloalkane dehalogenase LinB (LinB(MI)) that is 98% identical (seven amino-acid differences among 296 amino acids) to LinB from UT26 (LinB(UT)) was identified as an enzyme responsible for the two-step conversion of beta-HCH to TCDL. This property of LinB(MI) contrasted with that of LinB(UT), which catalyzed only the first step conversion of beta-HCH to PCHL. Site-directed mutagenesis and computer modeling suggested that two of the seven different amino acid residues (V134 and H247) forming a catalytic pocket of LinB are important for the binding of PCHL in an orientation suitable for the reaction in LinB(MI). However, mutagenesis also indicated the involvement of other residues for the activity unique to LinB(MI). Sequence analysis revealed that MI1205 possesses the IS6100-flanked cluster that contains two copies of the linB (MI) gene. This cluster is identical to the one located on the exogenously isolated plasmid pLB1, suggesting that MI1205 had recruited the linB genes by a horizontal transfer event.
• 2.90

  Impact points

  Aerobic degradation of lindane (gamma-hexachlorocyclohexane) in bacteria and its biochemical and molecular basis.

  Yuji Nagata, Ryo Endo, Michihiro Ito, Yoshiyuki Ohtsubo, Masataka Tsuda

  Applied microbiology and biotechnology. 10/2007; 76(4):741-52.

  gamma-Hexachlorocyclohexane (gamma-HCH, also called gamma-BHC and lindane) is a halogenated organic insecticide that causes serious environmental problems. The aerobic degradation pathway of gamma-HCH was extensively revealed in bacterial strain Sphingobium japonicum (formerly Sphingomonas paucimobi... [more] gamma-Hexachlorocyclohexane (gamma-HCH, also called gamma-BHC and lindane) is a halogenated organic insecticide that causes serious environmental problems. The aerobic degradation pathway of gamma-HCH was extensively revealed in bacterial strain Sphingobium japonicum (formerly Sphingomonas paucimobilis) UT26. gamma-HCH is transformed to 2,5-dichlorohydroquinone through sequential reactions catalyzed by LinA, LinB, and LinC, and then 2,5-dichlorohydroquinone is further metabolized by LinD, LinE, LinF, LinGH, and LinJ to succinyl-CoA and acetyl-CoA, which are metabolized in the citrate/tricarboxylic acid cycle. In addition to these catalytic enzymes, a putative ABC-type transporter system encoded by linKLMN is also essential for the gamma-HCH utilization in UT26. Preliminary examination of the complete genome sequence of UT26 clearly demonstrated that lin genes for the gamma-HCH utilization are dispersed on three large circular replicons with sizes of 3.5 Mb, 682 kb, and 191 kb. Nearly identical lin genes were also found in other HCH-degrading bacterial strains, and it has been suggested that the distribution of lin genes is mainly mediated by insertion sequence IS6100 and plasmids. Recently, it was revealed that two dehalogenases, LinA and LinB, have variants with small number of amino acid differences, and they showed dramatic functional differences for the degradation of HCH isomers, indicating these enzymes are still evolving at high speed.
• 3.87

  Impact points

  Complete sequence determination combined with analysis of transposition/site-specific recombination events to explain genetic organization of IncP-7 TOL plasmid pWW53 and related mobile genetic elements.

  Hirokazu Yano, Christine E Garruto, Masahiro Sota, Yoshiyuki Ohtsubo, Yuji Nagata, Gerben J Zylstra, Peter A Williams, Masataka Tsuda

  Journal of molecular biology. 06/2007; 369(1):11-26.

  Recent studies have indicated that the evolutionarily common catabolic gene clusters are loaded on structurally diverse toluene-catabolic (TOL) plasmids and their residing transposons. To elucidate the mechanisms supporting the diversification of catabolic plasmids and transposons, we determined her... [more] Recent studies have indicated that the evolutionarily common catabolic gene clusters are loaded on structurally diverse toluene-catabolic (TOL) plasmids and their residing transposons. To elucidate the mechanisms supporting the diversification of catabolic plasmids and transposons, we determined here the complete 107,929 bp sequence of pWW53, a TOL plasmid from Pseudomonas putida MT53. pWW53 was found to belong to the IncP-7 incompatibility group that play important roles in the catabolism of several xenobiotics. pWW53 carried two distinct transposase-resolvase gene clusters (tnpAR modules), five short terminal inverted repeats (IRs), and three site-specific resolution (res) sites that are all typical of class II transposons. This organization of pWW53 suggested the four possible transposable regions, Tn4657 to Tn4660. The largest 86 kb region (Tn4657) spanned the three other regions, and Tn4657 and Tn4660 (62 kb) covered all of the 36 xyl genes for toluene catabolism. Our subsequent transposition experiments clarified that the three transposons, Tn4657 to Tn4659, indeed exhibit their transposability, and that pWW53 also generated another 37 kb toluene-catabolic transposon, Tn4656, which carried the two separated and inversely oriented segments of pWW53: the tnpRA-IR module of Tn4658 and a part of xyl gene clusters on Tn4657. The Tn4658 transposase was able to mediate the transposition of Tn4658, Tn4657, and Tn4656, while the Tn4659 transposase catalyzed only the transposition of Tn4659. Tn4656 was formed by the Tn4658 resolvase-mediated site-specific inversion between the two inversely oriented res sites on pWW53. These findings and comparison with other catabolic plasmids clearly indicate multiple copies of transposition-related genes and sites on one plasmid and their recombination activities contribute greatly to the diversification of plasmid structures as well as wide dissemination of the evolutionary common gene clusters in various plasmids.
• 3.94

  Impact points

  Identification and characterization of genes encoding a putative ABC-type transporter essential for utilization of gamma-hexachlorocyclohexane in Sphingobium japonicum UT26.

  Ryo Endo, Yoshiyuki Ohtsubo, Masataka Tsuda, Yuji Nagata

  Journal of bacteriology. 06/2007; 189(10):3712-20.

  Sphingobium japonicum UT26 utilizes gamma-hexachlorocyclohexane (gamma-HCH) as its sole source of carbon and energy. In our previous studies, we cloned and characterized genes encoding enzymes for the conversion of gamma-HCH to beta-ketoadipate in UT26. In this study, we analyzed a mutant obtained b... [more] Sphingobium japonicum UT26 utilizes gamma-hexachlorocyclohexane (gamma-HCH) as its sole source of carbon and energy. In our previous studies, we cloned and characterized genes encoding enzymes for the conversion of gamma-HCH to beta-ketoadipate in UT26. In this study, we analyzed a mutant obtained by transposon mutagenesis and identified and characterized new genes encoding a putative ABC-type transporter essential for the utilization of gamma-HCH in strain UT26. This putative ABC transporter consists of four components, permease, ATPase, periplasmic protein, and lipoprotein, encoded by linK, linL, linM, and linN, respectively. Mutation and complementation analyses indicated that all the linKLMN genes are required, probably as a set, for gamma-HCH utilization in UT26. Furthermore, the mutant cells deficient in this putative ABC transporter showed (i) higher gamma-HCH degradation activity and greater accumulation of the toxic dead-end product 2,5-dichlorophenol (2,5-DCP), (ii) higher sensitivity to 2,5-DCP itself, and (iii) higher permeability of hydrophobic compounds than the wild-type cells. These results strongly suggested that LinKLMN are involved in gamma-HCH utilization by controlling membrane hydrophobicity. This study clearly demonstrated that a cellular factor besides catabolic enzymes and transcriptional regulators is essential for utilization of xenobiotic compounds in bacterial cells.