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Featured researches published by Michihiro Ito.


Applied and Environmental Microbiology | 2006

Complete Nucleotide Sequence of an Exogenously Isolated Plasmid, pLB1, Involved in γ-Hexachlorocyclohexane Degradation

Ryo Miyazaki; Yukari Sato; Michihiro Ito; Yoshiyuki Ohtsubo; Yuji Nagata; Masataka Tsuda

ABSTRACT The α-proteobacterial strain Sphingobium japonicum UT26 utilizes a highly chlorinated pesticide, γ-hexachlorocyclohexane (γ-HCH), as a sole source of carbon and energy, and haloalkane dehalogenase LinB catalyzes the second step of γ-HCH degradation in UT26. Functional complementation of a linB mutant of UT26, UT26DB, was performed by the exogenous plasmid isolation technique using HCH-contaminated soil, leading to our successful identification of a plasmid, pLB1, carrying the linB gene. Complete sequencing analysis of pLB1, with a size of 65,998 bp, revealed that it carries (i) 50 totally annotated coding sequences, (ii) an IS6100 composite transposon containing two copies of linB, and (iii) potential genes for replication, maintenance, and conjugative transfer with low levels of similarity to other homologues. A minireplicon assay demonstrated that a 2-kb region containing the predicted repA gene and its upstream region of pLB1 functions as an autonomously replicating unit in UT26. Furthermore, pLB1 was conjugally transferred from UT26DB to other α-proteobacterial strains but not to any of the β- or γ-proteobacterial strains examined to date. These results suggest that this exogenously isolated novel plasmid contributes to the dissemination of at least some genes for γ-HCH degradation in the natural environment. To the best of our knowledge, this is the first detailed report of a plasmid involved in γ-HCH degradation.


Archives of Microbiology | 2007

Degradation of β-hexachlorocyclohexane by haloalkane dehalogenase LinB from γ-hexachlorocyclohexane-utilizing bacterium Sphingobium sp. MI1205

Michihiro Ito; Zbyňek Prokop; Martin Klvaňa; Yoshiyuki Otsubo; Masataka Tsuda; Jiří Damborský; Yuji Nagata

The technical formulation of hexachlorocyclohexane (HCH) mainly consists of the insecticidal γ-isomer and noninsecticidal α-, β-, and δ-isomers, among which β-HCH is the most recalcitrant and has caused serious environmental problems. A γ-HCH-utilizing bacterial strain, Sphingobium sp. MI1205, was isolated from soil which had been contaminated with HCH isomers. This strain degraded β-HCH more rapidly than the well-characterized γ-HCH-utilizing strain Sphingobium japonicum UT26. In MI1205, β-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 (LinBMI) that is 98% identical (seven amino-acid differences among 296 amino acids) to LinB from UT26 (LinBUT) was identified as an enzyme responsible for the two-step conversion of β-HCH to TCDL. This property of LinBMI contrasted with that of LinBUT, which catalyzed only the first step conversion of β-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 LinBMI. However, mutagenesis also indicated the involvement of other residues for the activity unique to LinBMI. Sequence analysis revealed that MI1205 possesses the IS6100-flanked cluster that contains two copies of the linBMI 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.


Fems Microbiology Letters | 2012

Thirteen novel deoxynivalenol‐degrading bacteria are classified within two genera with distinct degradation mechanisms

Ikuo Sato; Michihiro Ito; Masumi Ishizaka; Yoko Ikunaga; Yukari Sato; Shigenobu Yoshida; Motoo Koitabashi; Seiya Tsushima

The mycotoxin deoxynivalenol (DON), a secondary metabolite produced by species of the plant pathogen Fusarium, causes serious problems in cereal crop production because of its toxicity towards humans and livestock. A biological approach for the degradation of DON using a DON-degrading bacterium (DDB) appears to be promising, although information about DDBs is limited. We isolated 13 aerobic DDBs from a variety of environmental samples, including field soils and wheat leaves. Of these 13 strains, nine belonged to the Gram-positive genus Nocardioides and other four to the Gram-negative genus Devosia. The degradation phenotypes of the two Gram types were clearly different; all washed cells of the 13 strains degraded 100 μg mL(-1) DON to below the detection limit (0.5 μg mL(-1)), but the conditions inducing the DON-degrading activities differed between the two Gram types. The HPLC profiles of the DON metabolites were also distinct between the two genera, although all strains produced 3-epi-deoxynivalenol. The Gram-positive strains showed DON assimilation in media containing DON as a carbon source, whereas the Gram-negatives did not. Our results suggest that aerobic DDBs are distributed within at least two phylogenetically restricted genera, suggesting independent evolution of the DON-degradation mechanisms.


Applied and Environmental Microbiology | 2013

Bacterial Cytochrome P450 System Catabolizing the Fusarium Toxin Deoxynivalenol

Michihiro Ito; Ikuo Sato; Masumi Ishizaka; Shinichiro Yoshida; Motoo Koitabashi; Shigenobu Yoshida; Seiya Tsushima

ABSTRACT Deoxynivalenol (DON) is a natural toxin of fungi that cause Fusarium head blight disease of wheat and other small-grain cereals. DON accumulates in infected grains and promotes the spread of the infection on wheat, posing serious problems to grain production. The elucidation of DON-catabolic genes and enzymes in DON-degrading microbes will provide new approaches to decrease DON contamination. Here, we report a cytochrome P450 system capable of catabolizing DON in Sphingomonas sp. strain KSM1, a DON-utilizing bacterium newly isolated from lake water. The P450 gene ddnA was cloned through an activity-based screening of a KSM1 genomic library. The genes of its redox partner candidates (flavin adenine dinucleotide [FAD]-dependent ferredoxin reductase and mitochondrial-type [2Fe-2S] ferredoxin) were not found adjacent to ddnA; the redox partner candidates were further cloned separately based on conserved motifs. The DON-catabolic activity was reconstituted in vitro in an electron transfer chain comprising the three enzymes and NADH, with a catalytic efficiency (k cat/Km ) of 6.4 mM−1 s−1. The reaction product was identified as 16-hydroxy-deoxynivalenol. A bioassay using wheat seedlings revealed that the hydroxylation dramatically reduced the toxicity of DON to wheat. The enzyme system showed similar catalytic efficiencies toward nivalenol and 3-acetyl deoxynivalenol, toxins that frequently cooccur with DON. These findings identify an enzyme system that catabolizes DON, leading to reduced phytotoxicity to wheat.


Bioscience, Biotechnology, and Biochemistry | 2011

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

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.


AMB Express | 2014

Stepwise enhancement of catalytic performance of haloalkane dehalogenase LinB towards β-hexachlorocyclohexane

Ryota Moriuchi; Hiroki Tanaka; Yuki Nikawadori; Mayuko Ishitsuka; Michihiro Ito; Yoshiyuki Ohtsubo; Masataka Tsuda; Jiri Damborsky; Zbynek Prokop; Yuji Nagata

Two haloalkane dehalogenases, LinBUT and LinBMI, each with 296 amino acid residues, exhibit only seven amino acid residue differences between them, but LinBMI’s catalytic performance towards β-hexachlorocyclohexane (β-HCH) is considerably higher than LinBUT’s. To elucidate the molecular basis governing this difference, intermediate mutants between LinBUT and LinBMI were constructed and kinetically characterized. The activities of LinBUT-based mutants gradually increased by cumulative mutations into LinBUT, and the effects of the individual amino acid substitutions depended on combination with other mutations. These results indicated that LinBUT’s β-HCH degradation activity can be enhanced in a stepwise manner by the accumulation of point mutations.


Applied Microbiology and Biotechnology | 2007

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

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


Applied Microbiology and Biotechnology | 2011

Nocardioides sp. strain WSN05-2, isolated from a wheat field, degrades deoxynivalenol, producing the novel intermediate 3-epi-deoxynivalenol

Yoko Ikunaga; Ikuo Sato; Stephanie Grond; Nobutaka Numaziri; Shigenobu Yoshida; Hiroko Yamaya; Syuntaro Hiradate; Morifumi Hasegawa; Hiroaki Toshima; Motoo Koitabashi; Michihiro Ito; Petr Karlovsky; Seiya Tsushima


Applied Microbiology and Biotechnology | 2012

A novel actinomycete derived from wheat heads degrades deoxynivalenol in the grain of wheat and barley affected by Fusarium head blight

Michihiro Ito; Ikuo Sato; Motoo Koitabashi; Shigenobu Yoshida; Machiko Imai; Seiya Tsushima


Applied Microbiology and Biotechnology | 2008

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

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

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Motoo Koitabashi

National Agriculture and Food Research Organization

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Seiya Tsushima

Tokyo University of Agriculture

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