Your search keyword '"Ohtsubo, Yoshiyuki"' showing total 109 results

1. Evolution of the Tn 4371 ICE family: traR -mediated coordination of cargo gene upregulation and horizontal transfer.

Author

Matsumoto S, Kishida K, Nonoyama S, Sakai K, Tsuda M, Nagata Y, and Ohtsubo Y

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Evolution, Molecular, Operon, Up-Regulation, Conjugation, Genetic, Gene Transfer, Horizontal, DNA Transposable Elements genetics, Gene Expression Regulation, Bacterial

Abstract

ICE KKS102 Tn 4677 carries a bph operon for the mineralization of polychlorinated biphenyls (PCBs)/biphenyl and belongs to the Tn 4371 ICE (integrative and conjugative element) family. In this study, we investigated the role of the traR gene in ICE transfer. The traR gene encodes a LysR-type transcriptional regulator, which is conserved in sequence, positioning, and directional orientation among Tn 4371 family ICEs. The traR belongs to the bph operon, and its overexpression on solid medium resulted in modest upregulation of traG (threefold), marked upregulation of xis (80-fold), enhanced ICE excision and, most notably, ICE transfer frequency. We propose the evolutional roles of traR , which upon insertion to its current position, might have connected the cargo gene activation and ICE transfer. This property of ICE, i.e., undergoing transfer under environmental conditions that lead to cargo gene activation, would instantly confer fitness advantages to bacteria newly acquiring this ICE, thereby resulting in efficient dissemination of the Tn 4371 family ICEs.IMPORTANCEOnly ICE KKS102 Tn 4677 is proven to transfer among the widely disseminating Tn 4371 family integrative and conjugative elements (ICEs) from β and γ-proteobacteria. We showed that the traR gene in ICE KKS102 Tn 4677 , which is conserved in the ICE family with fixed location and direction, is co-transcribed with the cargo gene and activates ICE transfer. We propose that capturing of traR by an ancestral ICE to the current position established the Tn 4371 family of ICEs. Our findings provide insights into the evolutionary processes that led to the widespread distribution of the Tn 4371 family of ICEs across bacterial species., Competing Interests: The authors declare no conflict of interest.

Published

2024

2. Transgenic Arabidopsis thaliana plants expressing bacterial γ-hexachlorocyclohexane dehydrochlorinase LinA.

Author

Deng W, Takada Y, Nanasato Y, Kishida K, Stari L, Ohtsubo Y, Tabei Y, Watanabe M, and Nagata Y

Subjects

Soil Pollutants metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Lyases genetics, Lyases metabolism, Arabidopsis genetics, Arabidopsis metabolism, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Biodegradation, Environmental, Hexachlorocyclohexane metabolism, Sphingomonadaceae genetics, Sphingomonadaceae metabolism, Sphingomonadaceae enzymology

Abstract

Background: γ-Hexachlorocyclohexane (γ-HCH), an organochlorine insecticide of anthropogenic origin, is a persistent organic pollutant (POP) that causes environmental pollution concerns worldwide. Although many γ-HCH-degrading bacterial strains are available, inoculating them directly into γ-HCH-contaminated soil is ineffective because of the low survival rate of the exogenous bacteria. Another strategy for the bioremediation of γ-HCH involves the use of transgenic plants expressing bacterial enzyme for γ-HCH degradation through phytoremediation., Results: We generated transgenic Arabidopsis thaliana expressing γ-HCH dehydrochlroninase LinA from bacterium Sphingobium japonicum strain UT26. Among the transgenic Arabidopsis T2 lines, we obtained one line (A5) that expressed and accumulated LinA well. The A5-derived T3 plants showed higher tolerance to γ-HCH than the non-transformant control plants, indicating that γ-HCH is toxic for Arabidopsis thaliana and that this effect is relieved by LinA expression. The crude extract of the A5 plants showed γ-HCH degradation activity, and metabolites of γ-HCH produced by the LinA reaction were detected in the assay solution, indicating that the A5 plants accumulated the active LinA protein. In some A5 lines, the whole plant absorbed and degraded more than 99% of γ-HCH (10 ppm) in the liquid medium within 36 h., Conclusion: The transgenic Arabidopsis expressing active LinA absorbed and degraded γ-HCH in the liquid medium, indicating the high potential of LinA-expressing transgenic plants for the phytoremediation of environmental γ-HCH. This study marks a crucial step toward the practical use of transgenic plants for the phytoremediation of POPs., (© 2024. The Author(s).)

Published

2024

3. Increase of secondary metabolites in sweet basil (Ocimum basilicum L.) leaves by exposure to N 2 O 5 with plasma technology.

Author

Tateishi R, Ogawa-Kishida N, Fujii N, Nagata Y, Ohtsubo Y, Sasaki S, Takashima K, Kaneko T, and Higashitani A

Subjects

Gene Expression Regulation, Plant, Metabolomics methods, Flavonoids metabolism, Eugenol analogs & derivatives, Eugenol metabolism, Oxylipins metabolism, Ocimum basilicum metabolism, Ocimum basilicum genetics, Plant Leaves metabolism, Plant Leaves drug effects, Plant Leaves genetics, Secondary Metabolism drug effects

Abstract

Exposure to N 2 O 5 generated by plasma technology activates immunity in Arabidopsis through tryptophan metabolites. However, little is known about the effects of N 2 O 5 exposure on other plant species. Sweet basil synthesizes many valuable secondary metabolites in its leaves. Therefore, metabolomic analyses were performed at three different exposure levels [9.7 (Ex1), 19.4 (Ex2) and 29.1 (Ex3) μmol] to assess the effects of N 2 O 5 on basil leaves. As a result, cinnamaldehyde and phenolic acids increased with increasing doses. Certain flavonoids, columbianetin, and caryophyllene oxide increased with lower Ex1 exposure, cineole and methyl eugenol increased with moderate Ex2 exposure and L-glutathione GSH also increased with higher Ex3 exposure. Furthermore, gene expression analysis by quantitative RT-PCR showed that certain genes involved in the syntheses of secondary metabolites and jasmonic acid were significantly up-regulated early after N 2 O 5 exposure. These results suggest that N 2 O 5 exposure increases several valuable secondary metabolites in sweet basil leaves via plant defense responses in a controllable system., (© 2024. The Author(s).)

Published

2024

4. Three distinct metabolic phases of polychlorinated biphenyls/biphenyl degrader Acidovorax sp. KKS102 in nutrient broth.

Author

Sakai K, Kishida K, Matsumoto S, Nagata Y, Tsuda M, and Ohtsubo Y

Subjects

Biphenyl Compounds, Biodegradation, Environmental, Carbon metabolism, Polychlorinated Biphenyls metabolism, Comamonadaceae metabolism

Abstract

Acidovorax sp. KKS102 is a beta-proteobacterium capable of degrading polychlorinated biphenyls (PCBs). In this study, we examined its growth in liquid nutrient broth supplemented with different carbon sources. KKS102 had at least 3 distinct metabolic phases designated as metabolic phases 1-3, with phase 2 having 2 sub-phases. For example, succinate, fumarate, and glutamate, known to repress the PCB/biphenyl catabolic operon in KKS102, were utilized in phase 1, while acetate, arabinose, and glycerol in phase 2, and glucose and mannose in phase 3. We also showed that the BphQ response regulator mediating catabolite control in KKS102, whose expression level increased moderately through the growth, plays important roles in carbon metabolism in phases 2 and 3. Our study elucidates the hierarchical growth of KKS102 in nutrient-rich media. This insight is crucial for studies exploiting microbial biodegradation capabilities and advancing studies for catabolite regulation mechanisms., (© The Author(s) 2024. Published by Oxford University Press on behalf of Japan Society for Bioscience, Biotechnology, and Agrochemistry.)

Published

2024

5. Clamping-mediated incorporation of single-stranded DNA with concomitant DNA synthesis by Taq polymerase involves nick-translation.

Author

Ohtsubo Y, Kawahara S, and Nagata Y

Subjects

Mice, Animals, Taq Polymerase, Constriction, Biotechnology, DNA, Single-Stranded, DNA Replication

Abstract

The development and characterization of a new enzyme reaction contribute to advancements in modern biotechnology. Here, we report a novel CIS (clamping-mediated incorporation of single-stranded DNA with concomitant DNA synthesis) reaction catalyzed by Taq polymerase. In the reaction, a single-stranded DNA (ssDNA) with 3' Cs is attached with a preformed 3' G-tail of double-stranded DNA (dsDNA); DNA syntheses starting from both 3' ends result in the incorporation of ssDNA. A 3' G-tail length of 3 nucleotides adequately supports this reaction, indicating that Taq polymerase can clump short Watson-Crick base pairs as short as three pairs and use them to initiate DNA polymerization. The reverse transcriptase from Molony murine leukemia virus catalyzes strand displacement synthesis and produces flapped-end DNA, whereas the reaction by Taq polymerase involves the nick translation. These new reaction properties may be beneficial for the development of new molecular tools applicable in various fields. Apart from its CIS reaction activity, we also report that Taq polymerase has the undesirable characteristic of removing 5' fluorescent labels from dsDNA. This characteristic may have compromised various experiments involving the preparation of fluorescently-labeled dsDNA by PCR for a long time., (© 2024. The Author(s).)

Published

2024

6. Degradation of DDT by γ-hexachlorocyclohexane dehydrochlorinase LinA.

Author

Yusuf Habibullah KO, Ito R, Stari L, Kishida K, Ohtsubo Y, Masai E, Fukuda M, Miyauchi K, and Nagata Y

Subjects

DDT metabolism, Bacteria metabolism, Hexachlorocyclohexane metabolism, Insecticides

Abstract

1,1,1-Trichloro-2,2-bis(4-chlorophenyl)-ethane (DDT) is the first synthetic insecticide and one of the most widely used pesticides. The use of DDT has been banned, but it remains one of the most notorious environmental pollutants around the world. In this study, we found that γ-hexachlorocyclohexane (γ-HCH) dehydrochlorinase LinA from a γ-HCH-degrading bacterium, Sphingobium japonicum UT26, converts DDT to 1,1-dichloro-2,2-bis(4-chlorophenyl)-ethylene (DDE). Because of the weak DDT degradation activity of LinA, we could not detect such activity in UT26 cells expressing LinA constitutively. However, the linA-deletion mutant of UT26 harboring a plasmid for the expression of LinA, in which LinA was expressed at a higher level than UT26, showed the DDT degradation activity. This outcome highlights the potential for constructing DDT-degrading sphingomonad cells through elevated LinA expression., (© The Author(s) 2023. Published by Oxford University Press on behalf of Japan Society for Bioscience, Biotechnology, and Agrochemistry.)

Published

2023

7. Draft genome sequence of Cupriavidus sp. strain TKC, isolated from a γ-hexachlorocyclohexane-degrading community.

Author

Kato H, Ohtsubo Y, Hirano S, Masuda S, Shibata A, Shirasu K, and Nagata Y

Abstract

Cupriavidus sp. strain TKC was isolated from a microbial community enriched with γ-hexachlorocyclohexane (γ-HCH). This strain did not show γ-HCH-degrading activity but was one of the major members of the community. Here, we present the draft genome sequence of the strain TKC with a size of 7 Mb., Competing Interests: The authors declare no conflict of interest.

Published

2023

8. Two-dimensional heavy fermion in a monoatomic-layer Kondo lattice YbCu 2 .

Author

Nakamura T, Sugihara H, Chen Y, Yukawa R, Ohtsubo Y, Tanaka K, Kitamura M, Kumigashira H, and Kimura SI

Abstract

The Kondo effect between localized f-electrons and conductive carriers leads to exotic physical phenomena. Among them, heavy-fermion (HF) systems, in which massive effective carriers appear due to the Kondo effect, have fascinated many researchers. Dimensionality is also an important characteristic of the HF system, especially because it is strongly related to quantum criticality. However, the realization of the perfect two-dimensional (2D) HF materials is still a challenging topic. Here, we report the surface electronic structure of the monoatomic-layer Kondo lattice YbCu 2 on a Cu(111) surface observed by synchrotron-based angle-resolved photoemission spectroscopy. The 2D conducting band and the Yb 4f state, located very close to the Fermi level, are observed. These bands are hybridized at low-temperature, forming the 2D HF state, with an evaluated coherence temperature of about 30 K. The effective mass of the 2D state is enhanced by a factor of 100 by the development of the HF state. Furthermore, clear evidence of the hybridization gap formation in the temperature dependence of the Kondo-resonance peak has been observed below the coherence temperature. Our study provides a new candidate as an ideal 2D HF material for understanding the Kondo effect at low dimensions., (© 2023. The Author(s).)

Published

2023

9. Breakdown of bulk-projected isotropy in surface electronic states of topological Kondo insulator SmB 6 (001).

Author

Ohtsubo Y, Nakaya T, Nakamura T, Le Fèvre P, Bertran F, Iga F, and Kimura SI

Abstract

The topology and spin-orbital polarization of two-dimensional (2D) surface electronic states have been extensively studied in this decade. One major interest in them is their close relationship with the parities of the bulk (3D) electronic states. In this context, the surface is often regarded as a simple truncation of the bulk crystal. Here we show breakdown of the bulk-related in-plane rotation symmetry in the topological surface states (TSSs) of the Kondo insulator SmB 6 . Angle-resolved photoelectron spectroscopy (ARPES) performed on the vicinal SmB 6 (001)-p(2 × 2) surface showed that TSSs are anisotropic and that the Fermi contour lacks the fourfold rotation symmetry maintained in the bulk. This result emphasizes the important role of the surface atomic structure even in TSSs. Moreover, it suggests that the engineering of surface atomic structure could provide a new pathway to tailor various properties among TSSs, such as anisotropic surface conductivity, nesting of surface Fermi contours, or the number and position of van Hove singularities in 2D reciprocal space., (© 2022. The Author(s).)

Published

2022

10. Genome evolution related to γ-hexachlorocyclohexane metabolic function in the soil microbial population.

Author

Kato H, Su L, Tanaka A, Katsu H, Ohtsubo Y, Otsuka S, Senoo K, and Nagata Y

Subjects

Biodegradation, Environmental, Evolution, Molecular, Soil, Soil Microbiology, Hexachlorocyclohexane metabolism, Sphingomonadaceae genetics

Abstract

γ-Hexachlorocyclohexane (γ-HCH)-degrading strain, Sphingobium sp. TA15, was newly isolated from an experimental field soil from which the archetypal γ-HCH-degrading strain, S. japonicum UT26, was isolated previously. Comparison of the complete genome sequences of these 2 strains revealed that TA15 shares the same basic genome backbone with UT26, but also has the variable regions that are presumed to have changed either from UT26 or from a putative common ancestor. Organization and localization of lin genes of TA15 were different from those of UT26. It was inferred that transposition of IS6100 had played a crucial role in these genome rearrangements. The accumulation of toxic dead-end products in TA15 was lower than in UT26, suggesting that TA15 utilizes γ-HCH more effectively than UT26. These results suggested that genome evolution related to the γ-HCH metabolic function in the soil microbial population is ongoing., (© The Author(s) 2022. Published by Oxford University Press on behalf of Japan Society for Bioscience, Biotechnology, and Agrochemistry.)

Published

2022

11. Algorisms used for in silico finishing of bacterial genomes based on short-read assemblage implemented in GenoFinisher, AceFileViewer, and ShortReadManager.

Author

Ohtsubo Y, Hirose Y, and Nagata Y

Subjects

Genomics methods, Sequence Analysis, DNA methods, Software, Genome, Bacterial, High-Throughput Nucleotide Sequencing methods

Abstract

In these days, for bacterial genome sequence determination, ultralong reads with homopolymeric troubles are used in combinations with short reads, resulting in genomic sequences with possible incorrect uniformity of repeat sequences. We have been determining complete bacterial genomic sequences based on NGS short reads and Newbler assemblage by utilizing functions implemented in 3 software GenoFinisher, AceFileViewer, and ShortReadManager without conducting additional experiments for gap closing, proving the concept that NGS short reads enclose enough information to determine complete genome sequences. Although some manual in silico tasks are to be conducted, they will ultimately be solved in a single pipeline. In this review, we describe the tools and implemented ideas that have enabled complete sequence determination solely based on short reads, which would be useful for establishing the basis for the future development of a short-read-based assembler that enables complete and accurate genome sequence determination at a lower cost., (© The Author(s) 2022. Published by Oxford University Press on behalf of Japan Society for Bioscience, Biotechnology, and Agrochemistry.)

Published

2022

12. Genome sequencing of the NIES Cyanobacteria collection with a focus on the heterocyst-forming clade.

Author

Hirose Y, Ohtsubo Y, Misawa N, Yonekawa C, Nagao N, Shimura Y, Fujisawa T, Kanesaki Y, Katoh H, Katayama M, Yamaguchi H, Yoshikawa H, Ikeuchi M, Eki T, Nakamura Y, and Kawachi M

Subjects

Base Sequence, Phylogeny, RNA, Ribosomal, 16S genetics, Cyanobacteria genetics, Ecosystem

Abstract

Cyanobacteria are a diverse group of Gram-negative prokaryotes that perform oxygenic photosynthesis. Cyanobacteria have been used for research on photosynthesis and have attracted attention as a platform for biomaterial/biofuel production. Cyanobacteria are also present in almost all habitats on Earth and have extensive impacts on global ecosystems. Given their biological, economical, and ecological importance, the number of high-quality genome sequences for Cyanobacteria strains is limited. Here, we performed genome sequencing of Cyanobacteria strains in the National Institute for Environmental Studies microbial culture collection in Japan. We sequenced 28 strains that can form a heterocyst, a morphologically distinct cell that is specialized for fixing nitrogen, and 3 non-heterocystous strains. Using Illumina sequencing of paired-end and mate-pair libraries with in silico finishing, we constructed highly contiguous assemblies. We determined the phylogenetic relationship of the sequenced genome assemblies and found potential difficulties in the classification of certain heterocystous clades based on morphological observation. We also revealed a bias on the sequenced strains by the phylogenetic analysis of the 16S rRNA gene including unsequenced strains. Genome sequencing of Cyanobacteria strains deposited in worldwide culture collections will contribute to understanding the enormous genetic and phenotypic diversity within the phylum Cyanobacteria., (© The Author(s) 2021. Published by Oxford University Press on behalf of Kazusa DNA Research Institute.)

Published

2021

13. Bulk-sensitive spin-resolved resonant electron energy-loss spectroscopy (SR-rEELS): Observation of element- and spin-selective bulk plasmons.

Author

Kimura SI, Kawabata T, Matsumoto H, Ohta Y, Yoshizumi A, Yoshida Y, Yamashita T, Watanabe H, Ohtsubo Y, Yamamoto N, and Jin X

Abstract

We have developed spin-resolved resonant electron energy-loss spectroscopy with the primary energy of 0.3-1.5 keV, which corresponds to the core excitations of 2p-3d absorption of transition metals and 3d-4f absorption of rare-earths, with the energy resolution of about 100 meV using a spin-polarized electron source as a GaAs/GaAsP strained superlattice photocathode. Element- and spin-selective carrier and valence plasmons can be observed using the resonance enhancement of core absorptions and electron spin polarization. Furthermore, bulk-sensitive electron energy-loss spectroscopy spectra can be obtained because the primary energy corresponds to the mean free path of 1-10 nm. The methodology is expected to provide us with novel information about elementary excitations by resonant inelastic x-ray scattering and resonant photoelectron spectroscopy.

Published

2021

14. A transcriptional regulator, IscR, of Burkholderia multivorans acts as both repressor and activator for transcription of iron-sulfur cluster-biosynthetic isc operon.

Author

Nonoyama S, Kishida K, Sakai K, Nagata Y, Ohtsubo Y, and Tsuda M

Subjects

Bacterial Proteins genetics, Burkholderia metabolism, DNA, Bacterial, Gene Expression Regulation, Bacterial, Iron-Sulfur Proteins genetics, Metabolic Networks and Pathways genetics, Mutation, Operon, Promoter Regions, Genetic, Protein Binding, Repressor Proteins genetics, Transcription Factors genetics, Transcription Factors metabolism, Bacterial Proteins metabolism, Burkholderia genetics, Iron-Sulfur Proteins metabolism, Repressor Proteins metabolism

Abstract

Bacterial iron-sulfur (Fe-S) clusters are essential cofactors for many metabolic pathways, and Fe-S cluster-containing proteins (Fe-S proteins) regulate the expression of various important genes. However, biosynthesis of such clusters has remained unknown in genus Burkholderia. Here, we clarified that Burkholderia multivorans ATCC 17616 relies on the ISC system for the biosynthesis of Fe-S clusters, and that the biosynthetic genes are organized as an isc operon, whose first gene encodes IscR, a transcriptional regulatory Fe-S protein. Transcription of the isc operon was repressed and activated under iron-rich and -limiting conditions, respectively, and Fur, an iron-responsive global transcriptional regulator, was indicated to indirectly regulate the expression of isc operon. Further analysis using a ΔiscR mutant in combination with a constitutive expression system of IscR and its derivatives indicated transcriptional repression and activation of isc operon by holo- and apo-forms of IscR, respectively, through their binding to the sequences within an isc promoter-containing (Pisc) fragment. Biochemical analysis using the Pisc fragment suggested that the apo-IscR binding sequence differs from the holo-IscR binding sequence. The results obtained in this study revealed a unique regulatory system for the expression of the ATCC 17616 isc operon that has not been observed in other genera., Competing Interests: Declaration of Competing Interest The authors declare no conflicts of interest., (Copyright © 2020 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2020

15. Transcriptome Analysis of Zygotic Induction During Conjugative Transfer of Plasmid RP4.

Author

Miyakoshi M, Ohtsubo Y, Nagata Y, and Tsuda M

Abstract

Conjugative transfer of bacterial plasmid is one of the major mechanisms of horizontal gene transfer, which is mediated by direct contact between donor and recipient cells. Gene expression of a conjugative plasmid is tightly regulated mostly by plasmid-encoded transcriptional regulators, but it remains obscure how differently plasmid genes are expressed in each cell during the conjugation event. Here, we report a comprehensive analysis of gene expression during conjugative transfer of plasmid RP4, which is transferred between isogenic strains of Pseudomonas putida KT2440 at very high frequency. To discriminate the expression changes in the donor and recipient cells, we took advantage of conjugation in the presence of rifampicin (Rif). Within 10 min of mating, we successfully detected transient transcription of plasmid genes in the resultant transconjugant cells. This phenomenon known as zygotic induction is likely attributed to derepression of multiple RP4-encoded repressors. Interestingly, we also observed that the traJIH operon encoding relaxase and its auxiliary proteins were upregulated specifically in the donor cells. Identification of the 5' end of the zygotically induced traJ mRNA confirmed that the transcription start site of traJ was located 24-nt upstream of the nick site in the origin of transfer ( oriT ) as previously reported. Since the traJ promoter is encoded on the region to be transferred first, the relaxase may be expressed in the donor cell after regeneration of the oriT- flanking region, which in itself is likely to displace the autogenous repressors around oriT . This study provides new insights into the regulation of plasmid transfer processes., (Copyright © 2020 Miyakoshi, Ohtsubo, Nagata and Tsuda.)

Published

2020

16. Expression of an alcohol dehydrogenase gene in a heterotrophic bacterium induces carbon dioxide-dependent high-yield growth under oligotrophic conditions.

Author

Inaba S, Sakai H, Kato H, Horiuchi T, Yano H, Ohtsubo Y, Tsuda M, and Nagata Y

Subjects

Alcohol Dehydrogenase genetics, Bacterial Proteins genetics, Gene Expression Regulation, Bacterial, Heterotrophic Processes, Hexachlorocyclohexane metabolism, Mutation, Phenotype, Plasmids genetics, Plasmids metabolism, Promoter Regions, Genetic, Sphingomonadaceae enzymology, Sphingomonadaceae genetics, Alcohol Dehydrogenase metabolism, Bacterial Proteins metabolism, Carbon Dioxide metabolism, Sphingomonadaceae growth & development, Sphingomonadaceae metabolism

Abstract

Sphingobium japonicum strain UT26, whose γ-hexachlorocyclohexane-degrading ability has been studied in detail, is a typical aerobic and heterotrophic bacterium that needs organic carbon sources for its growth, and cannot grow on a minimal salt agar medium prepared without adding any organic carbon sources. Here, we isolated a mutant of UT26 with the ability to grow to visible state on such an oligotrophic medium from a transposon-induced mutant library. This high-yield growth under oligotrophic conditions (HYGO) phenotype was CO 2 -dependent and accompanied with CO 2 incorporation. In the HYGO mutant, a transposon was inserted just upstream of the putative Zn-dependent alcohol dehydrogenase (ADH) gene ( adhX ) so that the adhX gene was constitutively expressed, probably by the transposon-derived promoter. The adhX -deletion mutant (UT26DAX) harbouring a plasmid carrying the adhX gene under the control of a constitutive promoter exhibited the HYGO phenotype. Moreover, the HYGO mutants spontaneously emerged among the UT26-derived hypermutator strain cells, and adhX was highly expressed in these HYGO mutants, while no HYGO mutant appeared among UT26DAX-derived hypermutator strain cells, indicating the necessity of adhX for the HYGO phenotype. His-tagged AdhX that was expressed in Escherichia coli and purified to homogeneity showed ADH activity towards methanol and other alcohols. Mutagenesis analysis of the adhX gene indicated a correlation between the ADH activity and the HYGO phenotype. These results demonstrated that the constitutive expression of an adhX -encoding protein with ADH activity in UT26 leads to the CO 2 -dependent HYGO phenotype. Identical or nearly identical adhX orthologues were found in other sphingomonad strains, and most of them were located on plasmids, suggesting that the adhX -mediated HYGO phenotype may be an important adaptation strategy to oligotrophic environments among sphingomonads.

Published

2020

17. Conjugative Transfer of IncP-9 Catabolic Plasmids Requires a Previously Uncharacterized Gene, mpfK , Whose Homologs Are Conserved in Various MPF T -Type Plasmids.

Author

Kishida K, Nonoyama S, Lukas T, Kawahara S, Kudo K, Nagata Y, Ohtsubo Y, and Tsuda M

Subjects

Amino Acid Sequence, Escherichia coli genetics, Escherichia coli Proteins, Genes, Bacterial, Pseudomonas genetics, Pseudomonas putida genetics, Type IV Secretion Systems genetics, Bacterial Proteins genetics, Conjugation, Genetic, Plasmids genetics

Abstract

Conjugative transfer of bacterial plasmids to recipient cells is often mediated by type IV secretion machinery. Experimental investigations into the minimal gene sets required for efficient conjugative transfer suggest that such gene sets are variable, depending on plasmids. We have been analyzing the conjugative transfer of Pseudomonas -derived and IncP-9 plasmids, NAH7 and pWW0, whose conjugation systems belong to the MPF T type. Our deletion analysis and synthetic biology analysis in this study showed that these plasmids require previously uncharacterized genes, mpfK (formerly orf34 ) and its functional homolog, kikA , respectively, for their efficient conjugative transfer. MpfK was localized in periplasm and had four cysteine residues whose intramolecular or intermolecular disulfide bond formation was suggested to be important for efficient conjugative transfer. The mpfK homologs were specifically carried by many MPF T -type plasmids, including non-IncP-9 plasmids, such as R388 and R751. Intriguingly, the mpfK homologs from the two non-IncP-9 plasmids were not required for conjugation of their plasmids, but were able to complement efficiently the transfer defect of the NAH7 mpfK mutant. Our results suggested the importance of the mpfK homologs for conjugative transfer of MPF T -type plasmids. IMPORTANCE IncP-9 plasmids are important mobile genetic elements for the degradation of various aromatic hydrocarbons. Elucidation of conjugative transfer of such plasmids is expected to greatly contribute to our understanding of its role in the bioremediation of polluted environments. The present study mainly focused on the conjugation system of NAH7, a well-studied and naphthalene-catabolic IncP-9 plasmid. Our analysis showed that the NAH7 conjugation system uniquely requires, in addition to the conserved components of the type IV secretion system (T4SS), a previously uncharacterized periplasmic protein, MpfK, for successful conjugation. Our findings collectively revealed a unique type of T4SS-associated conjugation system in the IncP-9 plasmids., (Copyright © 2019 American Society for Microbiology.)

Published

2019

18. Properties and efficient scrap-and-build repairing of mechanically sheared 3' DNA ends.

Author

Ohtsubo Y, Sakai K, Nagata Y, and Tsuda M

Subjects

DNA Nucleotidylexotransferase metabolism, DNA-Directed DNA Polymerase metabolism, Deoxyribonuclease IV (Phage T4-Induced) metabolism, Exodeoxyribonucleases metabolism, Sonication, Substrate Specificity, DNA chemistry, DNA metabolism, DNA Repair

Abstract

Repairing of DNA termini is a crucial step in a variety of DNA handling techniques. In this study, we investigated mechanically-sheared DNA 3'-ends (MSD3Es) to establish an efficient repair method. As opposed to the canonical view of DNA terminus generated by sonication, we showed that approximately 47% and 20% of MSD3Es carried a phosphate group and a hydroxyl group, respectively. The others had unidentified abnormal terminal structures. Notably, a fraction of the abnormal 3' termini (about 20% of the total) was not repaired after the removal of 3' phosphates and T4 DNA polymerase (T4DP) treatment. To overcome this limitation, we devised a reaction, in which the 3'- > 5' exonuclease activity of exonuclease III (3'- > 5' exonuclease, insensitive to the 3' phosphate group) was counterbalanced by the 5'- > 3' polymerase activity of T4DP. This combined reaction, termed "SB-repairing" (for scrap-and-build repairing), will serve as a useful tool for the efficient repair of MSD3Es., Competing Interests: Competing interestsThe authors declare no competing non-financial interests but the following competing financial interests; Tohoku University filed domestic patent applications on the tailing and CIS reactions., (© The Author(s) 2019.)

Published

2019

19. Lessons from the genomes of lindane-degrading sphingomonads.

Author

Nagata Y, Kato H, Ohtsubo Y, and Tsuda M

Subjects

Bacterial Proteins genetics, Gene Transfer, Horizontal, Genes, Bacterial, Phylogeny, Plasmids, Biodegradation, Environmental, Genome, Bacterial, Hexachlorocyclohexane metabolism, Sphingomonadaceae genetics, Sphingomonadaceae metabolism

Abstract

Bacterial strains capable of degrading man-made xenobiotic compounds are good materials to study bacterial evolution towards new metabolic functions. Lindane (γ-hexachlorocyclohexane, γ-HCH, or γ-BHC) is an especially good target compound for the purpose, because it is relatively recalcitrant but can be degraded by a limited range of bacterial strains. A comparison of the complete genome sequences of lindane-degrading sphingomonad strains clearly demonstrated that (i) lindane-degrading strains emerged from a number of different ancestral hosts that have recruited lin genes encoding enzymes that are able to channel lindane to central metabolites, (ii) in sphingomonads lin genes have been acquired by horizontal gene transfer mediated by different plasmids and in which IS6100 plays a role in recruitment and distribution of genes, and (iii) IS6100 plays a role in dynamic genome rearrangements providing genetic diversity to different strains and ability to evolve to other states. Lindane-degrading bacteria whose genomes change so easily and quickly are also fascinating starting materials for tracing the bacterial evolution process experimentally in a relatively short time period. As the origin of the specific lin genes remains a mystery, such genes will be useful probes for exploring the cryptic 'gene pool' available to bacteria., (© 2019 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2019

20. Complete Genome Sequence of Thalassococcus sp. Strain S3, a Marine Roseobacter Clade Member Capable of Degrading Carbazole.

Author

Vejarano F, Suzuki-Minakuchi C, Ohtsubo Y, Tsuda M, Okada K, and Nojiri H

Abstract

We determined the complete genome sequence of Thalassococcus sp. strain S3, a marine carbazole degrader isolated from Tokyo Bay in Japan that carries genes for aerobic anoxygenic phototrophy. Strain S3 has a 4.7-Mb chromosome that harbors the carbazole-degradative gene cluster and three (96-, 63-, and 46-kb) plasmids., (Copyright © 2019 Vejarano et al.)

Published

2019

21. Suppression of substrate inhibition in phenanthrene-degrading Mycobacterium by co-cultivation with a non-degrading Burkholderia strain.

Author

Ogawa N, Kato H, Kishida K, Ichihashi E, Ishige T, Yoshikawa H, Nagata Y, Ohtsubo Y, and Tsuda M

Subjects

Bacterial Proteins genetics, Biodegradation, Environmental, Culture Media chemistry, Gene Expression Profiling, Gram-Negative Bacteria physiology, Microbial Consortia, Microbial Interactions, Mycobacterium growth & development, Mycobacterium metabolism, Phenanthrenes analysis, Soil Pollutants analysis, Burkholderia physiology, Mycobacterium physiology, Phenanthrenes metabolism, Soil Pollutants metabolism

Abstract

In natural environments contaminated by recalcitrant organic pollutants, efficient biodegradation of such pollutants has been suggested to occur through the cooperation of different bacterial species. A phenanthrene-degrading bacterial consortium, MixEPa4, from polluted soil was previously shown to include a phenanthrene-degrading strain, Mycobacterium sp. EPa45, and a non-polycyclic aromatic hydrocarbon (PAH)-degrading strain, Burkholderia sp. Bcrs1W. In this study, we show that addition of phenanthrene to rich liquid medium resulted in the transient growth arrest of EPa45 during its degradation of phenanthrene. RNA-sequencing analysis of the growth-arrested cells showed the phenanthrene-dependent induction of genes that were predicted to be involved in the catabolism of this compound, and many other cell systems, such as a ferric iron-uptake, were up-regulated, implying iron deficiency of the cells. This negative effect of phenanthrene became much more apparent when using phenanthrene-containing minimal agar medium; colony formation of EPa45 on such agar was significantly inhibited in the presence of phenanthrene and its intermediate degradation products. However, growth inhibition was suppressed by the co-residence of viable Bcrs1W cells. Various Gram-negative bacterial strains, including the three other strains from MixEPa4, also exhibited varying degrees of suppression of the growth inhibition effect on EPa45, strongly suggesting that this effect is not strain-specific. Growth inhibition of EPa45 was also observed by other PAHs, biphenyl and naphthalene, and these two compounds and phenanthrene also inhibited the growth of another mycobacterial strain, M. vanbaalenii PYR-1, that can use them as carbon sources. These phenomena of growth inhibition were also suppressed by Bcrs1W. Our findings suggest that, in natural environments, various non-PAH-degrading bacterial strains play potentially important roles in the facilitation of PAH degradation by the co-residing mycobacteria.

Published

2019

22. Non-trivial surface states of samarium hexaboride at the (111) surface.

Author

Ohtsubo Y, Yamashita Y, Hagiwara K, Ideta SI, Tanaka K, Yukawa R, Horiba K, Kumigashira H, Miyamoto K, Okuda T, Hirano W, Iga F, and Kimura SI

Abstract

The peculiar metallic electronic states observed in the Kondo insulator, samarium hexaboride (SmB 6 ), has stimulated considerable attention among those studying non-trivial electronic phenomena. However, experimental studies of these states have led to controversial conclusions mainly due to the difficulty and inhomogeneity of the SmB 6 crystal surface. Here, we show the detailed electronic structure of SmB 6 with angle-resolved photoelectron spectroscopy measurements of the three-fold (111) surface where only two inequivalent time-reversal-invariant momenta (TRIM) exist. We observe the metallic two-dimensional state was dispersed across the bulk Kondo gap. Its helical in-plane spin polarisation around the surface TRIM indicates that SmB 6 is topologically non-trivial, according to the topological classification theory for weakly correlated systems. Based on these results, we propose a simple picture of the controversial topological classification of SmB 6 .

Published

2019

23. Complete Genome Sequence of an Anaerobic Benzene-Degrading Bacterium, Azoarcus sp. Strain DN11.

Author

Devanadera A, Vejarano F, Zhai Y, Suzuki-Minakuchi C, Ohtsubo Y, Tsuda M, Kasai Y, Takahata Y, Okada K, and Nojiri H

Abstract

Here, we present the complete genome sequence of Azoarcus sp. strain DN11, a denitrifying bacterium capable of anaerobic benzene degradation. The DN11 genome is 4,956,835 bp long with a G+C content of 66.3%. Genome analysis suggested the possibility that DN11 utilizes three proposed pathways for anaerobic benzene degradation, namely, methylation, hydroxylation, and carboxylation pathways., (Copyright © 2019 Devanadera et al.)

Published

2019

24. Complete Genome Sequence of Bacillus licheniformis TAB7, a Compost-Deodorizing Strain with Potential for Plant Growth Promotion.

Author

Mpofu E, Vejarano F, Suzuki-Minakuchi C, Ohtsubo Y, Tsuda M, Chakraborty J, Nakajima M, Okada K, Tada N, Kimura T, and Nojiri H

Abstract

Bacillus licheniformis strain TAB7 degrades short-chain fatty acids responsible for offensive odor in manure and is used as a deodorant in a compost-deodorizing technology. Here, we report the complete genome sequence of strain TAB7, which consists of a 4.37-Mb chromosome and two plasmids (42 kb and 31 kb).

Published

2019

25. Optimization of single strand DNA incorporation reaction by Moloney murine leukaemia virus reverse transcriptase.

Author

Ohtsubo Y, Sasaki H, Nagata Y, and Tsuda M

Subjects

Base Sequence, DNA, Single-Stranded metabolism, Sequence Analysis, DNA, Substrate Specificity, DNA Replication, DNA, Single-Stranded genetics, Moloney murine leukemia virus enzymology, Moloney murine leukemia virus genetics, RNA-Directed DNA Polymerase metabolism

Abstract

In this study, we investigated CIS reaction (clamping-mediated incorporation of single-stranded DNA with concomitant DNA syntheses) of Moloney murine leukaemia virus reverse transcriptase (MMLV-RT), and established a set of conditions with which single-stranded DNA is ligated to a G-tailed model substrate DNA at efficiencies close to 100%. Prior to the CIS reaction, a target blunt-end DNA was 3' G-tailed by MMLV-RT in the presence of a tailing enhancer, deoxycytidine. In the CIS reaction, the G-tail reacted with a single-stranded DNA carrying a stretch of Cs on its 3' end (termed as GAO for guide adaptor oligonucleotide), and MMLV-RT performed DNA polymerization, starting from the 3' overhang, using the GAO as a template. We could append a given nucleotide sequence of as long as 72 nucleotides, which would be sufficient for various NGS-sequencing platforms. The high efficiency and the unique features of this MMLV-RT activity that enables the labelling of each DNA molecule with a unique degenerate sequence as a molecular identifier has many potential uses in biotechnology.

Published

2018

26. Complete Genome Sequence of the Marine Carbazole-Degrading Bacterium Erythrobacter sp. Strain KY5.

Author

Vejarano F, Suzuki-Minakuchi C, Ohtsubo Y, Tsuda M, Okada K, and Nojiri H

Abstract

We determined the complete genome sequence of Erythrobacter sp. strain KY5, a bacterium isolated from Tokyo Bay and capable of degrading carbazole. The genome consists of a 3.3-Mb circular chromosome that carries the gene clusters involved in carbazole degradation and biosynthesis of the photosynthetic apparatus of aerobic anoxygenic phototrophic bacteria.

Published

2018

27. Infrared Evaluation of Enantiometric Amount and Application to Racemization at the Interface Between L- and D-Alanine.

Author

Kamei S, Hibi J, Ohtsubo Y, Watanabe H, and Kimura SI

Subjects

Stereoisomerism, Alanine analysis, Alanine chemistry, Spectrophotometry, Infrared methods

Abstract

Amino acids, except for glycine, have two types of molecular structures, L- and D-forms, which are enantiomers. As the L- and D-form molecules have identical chemical and physical properties, they cannot be easily identified by conventional methods. In this study, we found that the amount and the spatial distribution of D-enantiomers in an L-alanine (CH 3 CH(COOH)NH 2 ) matrix in evaporated thin films, which is one of amino acid molecules, can be evaluated quantitatively using an infrared micro spectroscopy with synchrotron radiation. This method was applied to the evaluation of the volume fraction of a racemic component appearing at the interface between L- and D-alanine thin films.

Published

2018

28. Establishment of plasmid vector and allelic exchange mutagenesis systems in a mycobacterial strain that is able to degrade polycyclic aromatic hydrocarbon.

Author

Kishida K, Ogawa N, Ichihashi E, Kato H, Nagata Y, Ohtsubo Y, and Tsuda M

Subjects

Base Sequence, Chloramphenicol pharmacology, Chromosomes, Bacterial, Crossing Over, Genetic, Kanamycin Resistance genetics, Mycobacterium genetics, Polycyclic Aromatic Hydrocarbons metabolism, Polymerase Chain Reaction, Promoter Regions, Genetic, Recombination, Genetic, Rhodococcus genetics, Soil Pollutants metabolism, Tetracycline Resistance genetics, Alleles, Biodegradation, Environmental, Genes, Bacterial, Genetic Vectors, Mutagenesis, Mycobacterium metabolism, Naphthols metabolism, Phenanthrenes metabolism, Plasmids

Abstract

Plasmid vector and allelic exchange mutagenesis systems were established for the genetic analysis of a phenanthrene-degrading mycobacterial strain, Mycobacterium sp. EPa45. Successful application of these systems revealed the necessity of the EPa45 phdI gene for the degradation of 1-hydroxy-2-naphthoate, which has been proposed to be an intermediate product in the degradation pathway of phenanthrene.

Published

2018

29. Surface electronic states of Au-induced nanowires on Ge(0 0 1).

Author

Yaji K, Yukawa R, Kim S, Ohtsubo Y, Le Fèvre P, Bertran F, Taleb-Ibrahimi A, Matsuda I, Nakatsuji K, Shin S, and Komori F

Abstract

The electronic states of Au-induced atomic nanowires on Ge(0 0 1) (Au/Ge(0 0 1) NWs) have been studied by angle-resolved photoelectron spectroscopy with linearly polarized light. We have found three electron pockets around the [Formula: see text] line, where the Fermi surfaces are closed in a surface Brillouin zone (SBZ). The results indicate 2D Fermi surfaces of Au/Ge(0 0 1) NWs whereas the atomic structure is 1D. On the basis of the polarization-dependent spectra, the relation between SBZ and the direction of the atomic NW, and the symmetry of the surface state are clarified. These are very useful for further studies on the atomic structure of NWs.

Published

2018

30. The Small Protein HemP Is a Transcriptional Activator for the Hemin Uptake Operon in Burkholderia multivorans ATCC 17616.

Author

Sato T, Nonoyama S, Kimura A, Nagata Y, Ohtsubo Y, and Tsuda M

Subjects

Bacterial Proteins genetics, Biological Transport, Burkholderia genetics, Operon, Promoter Regions, Genetic, Trans-Activators genetics, Transcriptional Activation, Bacterial Proteins metabolism, Burkholderia metabolism, Gene Expression Regulation, Bacterial, Hemin metabolism, Trans-Activators metabolism

Abstract

Iron and heme play very important roles in various metabolic functions in bacteria, and their intracellular homeostasis is maintained because high concentrations of free forms of these molecules greatly facilitate the Fenton reaction-mediated production of large amounts of reactive oxygen species that severely damage various biomolecules. The ferric uptake regulator (Fur) from Burkholderia multivorans ATCC 17616 is an iron-responsive global transcriptional regulator, and its fur deletant exhibits pleiotropic phenotypes. In this study, we found that the phenotypes of the fur deletant were suppressed by an additional mutation in hemP The transcription of hemP was negatively regulated by Fur under iron-replete conditions and was constitutive in the fur deletant. Growth of a hemP deletant was severely impaired in a medium containing hemin as the sole iron source, demonstrating the important role of HemP in hemin utilization. HemP was required as a transcriptional activator that specifically binds the promoter-containing region upstream of a Fur-repressive hmuRSTUV operon, which encodes the proteins for hemin uptake. A hmuR deletant was still able to grow using hemin as the sole iron source, albeit at a rate clearly lower than that of the wild-type strain. These results strongly suggested (i) the involvement of HmuR in hemin uptake and (ii) the presence in ATCC 17616 of at least part of other unknown hemin uptake systems whose expression depends on the HemP function. Our in vitro analysis also indicated high-affinity binding of HemP to hemin, and such a property might modulate transcriptional activation of the hmu operon. IMPORTANCE Although the hmuRSTUV genes for the utilization of hemin as a sole iron source have been identified in a few Burkholderia strains, the regulatory expression of these genes has remained unknown. Our analysis in this study using B. multivorans ATCC 17616 showed that its HemP protein is required for expression of the hmuRSTUV operon, and the role of HemP in betaproteobacterial species was elucidated for the first time, to our knowledge, in this study. The HemP protein was also found to have two additional properties that have not been reported for functional homologues in other species; one is that HemP is able to bind to the promoter-containing region of the hmu operon to directly activate its transcription, and the other is that HemP is also required for the expression of an unknown hemin uptake system., (Copyright © 2017 American Society for Microbiology.)

Published

2017

31. Compounds that enhance the tailing activity of Moloney murine leukemia virus reverse transcriptase.

Author

Ohtsubo Y, Nagata Y, and Tsuda M

Subjects

Enzyme Activators analysis, Moloney murine leukemia virus enzymology, RNA-Directed DNA Polymerase metabolism

Abstract

In a previous study, we showed that MMLV-RT has a strong terminal transferase activity, and that the C-, G-, and T-tailing activities are enhanced by dGMP, dCMP, and dAMP, respectively. In this study, to achieve faster reaction and higher tailing efficiency, we screened other compounds for the ability to enhance the tailing activities of MMLV-RT, and determined the corresponding optimal concentrations. The C-, G-, and T-tailing activities were enhanced by guanine, cytosine, and adenine, respectively, and by derivatives thereof, suggesting a transient Watson-Click base pairing between an enhancer molecule and the nucleotide to be incorporated. In the presence of some additives (GMP and GDP for C-tailing and CMP for G-tailing), the tail length increased continuously, resulting in tail lengths of 7 to 15 (GMP and GDP) or 13 to 22 (CMP) nucleotides. Among the compounds that do not induce continuous addition, adenosine, deoxycytidine, and deoxyguanosine mostly enhanced T-, G-, and C-tailings, respectively. The enhancing chemicals described here will improve the feasibility of N-tailing by MMLV-RT in various biotechnological applications.

Published

2017

32. Complete Genome Sequence of Bradyrhizobium diazoefficiens USDA 122, a Nitrogen-Fixing Soybean Symbiont.

Author

Sugawara M, Tsukui T, Kaneko T, Ohtsubo Y, Sato S, Nagata Y, Tsuda M, Mitsui H, and Minamisawa K

Abstract

We report the complete genome sequence of Bradyrhizobium diazoefficiens USDA 122, a nitrogen-fixing soybean symbiont. The genome consists of a 9.1 Mb circular chromosome, and 8,551 coding sequences (CDSs) were predicted on the genome. The sequence will provide insight into the evolution of rhizobial genome, and the symbiotic compatibility with host plants., (Copyright © 2017 Sugawara et al.)

Published

2017

33. Efficient N-tailing of blunt DNA ends by Moloney murine leukemia virus reverse transcriptase.

Author

Ohtsubo Y, Nagata Y, and Tsuda M

Subjects

Animals, DNA genetics, DNA, Complementary genetics, DNA, Complementary metabolism, Enzyme Activation, Mice, Moloney murine leukemia virus genetics, Templates, Genetic, DNA metabolism, Moloney murine leukemia virus physiology, RNA-Directed DNA Polymerase metabolism, Reverse Transcription

Abstract

Moloney murine leukemia virus reverse transcriptase (MMLV-RT) is a widely used enzyme for cDNA synthesis. Here we show that MMLV-RT has a strong template-independent polymerase activity using blunt DNA ends as substrate that generates 3' overhangs of A, C, G, or T. Nucleotides were appended efficiently in the order A > G > T > C, and tail lengths varied from 4 to 5, 2 to 7, 2 to 4, and 2 to 3 for A, C, G, and T, respectively. The activity was so strong that nearly all our test DNA ends were appended with at least one A, C, G, or T. The N-tailing activity of MMLV-RT was enhanced in the presence of Mn 2+ , and the G-, C-, and T-tailing activities were further enhanced by dCMP, dGMP, and dAMP, respectively. This is the first report of an enzymatic activity that almost thoroughly appends two or more As, or one or more Cs, Gs, or Ts to the 3' end of double-stranded DNA, which would enable exhaustive analysis of DNA samples. The N-tailing activity of MMLV-RT is potentially useful in many biotechnological applications.

Published

2017

34. Host Range of the Conjugative Transfer System of IncP-9 Naphthalene-Catabolic Plasmid NAH7 and Characterization of Its oriT Region and Relaxase.

Author

Kishida K, Inoue K, Ohtsubo Y, Nagata Y, and Tsuda M

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, DNA, Bacterial genetics, Endodeoxyribonucleases metabolism, Escherichia coli genetics, Pseudomonas putida physiology, Recombination, Genetic, Toluene metabolism, Conjugation, Genetic, Endodeoxyribonucleases genetics, Naphthalenes metabolism, Plasmids genetics, Pseudomonas putida genetics

Abstract

NAH7 and pWW0 from gammaproteobacterial Pseudomonas putida strains are IncP-9 conjugative plasmids that carry the genes for degradation of naphthalene and toluene, respectively. Although such genes on these plasmids are well-characterized, experimental investigation of their conjugation systems remains at a primitive level. To clarify these conjugation systems, in this study, we investigated the NAH7-encoded conjugation system by (i) analyzing the origin of its conjugative transfer (oriT)-containing region and its relaxase, which specifically nicks within the oriT region for initiation of transfer, and (ii) comparing the conjugation systems between NAH7 and pWW0. The NAH7 oriT (oriT N ) region was located within a 430-bp fragment, and the strand-specific nicking (nic) site and its upstream sequences that were important for efficient conjugation in the oriT N region were identified. Unlike many other relaxases, the NAH7 relaxase exhibited unique features in its ability to catalyze, in a conjugation-independent manner, the site-specific intramolecular recombination between two copies of the oriT N region, between two copies of the pWW0 oriT (oriT W ) region (which is clearly different from the oriT N region), and between the oriT N and oriT W regions. The pWW0 relaxase, which is also clearly different from the NAH7 relaxase, was strongly suggested to have the ability to conjugatively and efficiently mobilize the oriT N -containing plasmid. Such a plasmid was, in the presence of the NAH7Δnic derivative, conjugatively transferable to alphaproteobacterial and betaproteobacterial strains in which the NAH7 replication machinery is nonfunctional, indicating that the NAH7 conjugation system has a broader host range than its replication system., Importance: Various studies have strongly suggested an important contribution of conjugative transfer of catabolic plasmids to the rapid and wide dissemination of the plasmid-loaded degradation genes to microbial populations. Degradation genes on such plasmids are often loaded on transposons, which can be inserted into the genomes of the recipient bacterial strains where the transferred plasmids cannot replicate. The aim was to advance detailed molecular knowledge of the determinants of host range for plasmids. This aim is expected to be easily and comprehensively achieved using an experimental strategy in which the oriT region is connected with a plasmid that has a broad host range of replication. Using such a strategy in this study, we showed that (i) the NAH7 oriT-relaxase system has unique properties that are significantly different from other well-studied systems and (ii) the host range of the NAH7 conjugation system is broader than previously thought., (Copyright © 2016 American Society for Microbiology.)

Published

2016

35. Comparison of the complete genome sequences of four γ-hexachlorocyclohexane-degrading bacterial strains: insights into the evolution of bacteria able to degrade a recalcitrant man-made pesticide.

Author

Tabata M, Ohhata S, Nikawadori Y, Kishida K, Sato T, Kawasumi T, Kato H, Ohtsubo Y, Tsuda M, and Nagata Y

Subjects

Biodegradation, Environmental, Sequence Alignment, Sphingomonas metabolism, Evolution, Molecular, Genome, Bacterial, Hexachlorocyclohexane metabolism, Pesticides metabolism, Sphingomonas genetics

Abstract

γ-Hexachlorocyclohexane (γ-HCH) is a recalcitrant man-made chlorinated pesticide. Here, the complete genome sequences of four γ-HCH-degrading sphingomonad strains, which are most unlikely to have been derived from one ancestral γ-HCH degrader, were compared. Together with several experimental data, we showed that (i) all the four strains carry almost identical linA to linE genes for the conversion of γ-HCH to maleylacetate (designated "specific" lin genes), (ii) considerably different genes are used for the metabolism of maleylacetate in one of the four strains, and (iii) the linKLMN genes for the putative ABC transporter necessary for γ-HCH utilization exhibit structural divergence, which reflects the phylogenetic relationship of their hosts. Replicon organization and location of the lin genes in the four genomes are significantly different with one another, and that most of the specific lin genes are located on multiple sphingomonad-unique plasmids. Copies of IS6100, the most abundant insertion sequence in the four strains, are often located in close proximity to the specific lin genes. Analysis of the footprints of target duplication upon IS6100 transposition and the experimental detection of IS6100 transposition strongly suggested that the IS6100 transposition has caused dynamic genome rearrangements and the diversification of lin-flanking regions in the four strains., (© The Author 2016. Published by Oxford University Press on behalf of Kazusa DNA Research Institute.)

Published

2016

36. Surface Kondo effect and non-trivial metallic state of the Kondo insulator YbB12.

Author

Hagiwara K, Ohtsubo Y, Matsunami M, Ideta S, Tanaka K, Miyazaki H, Rault JE, Fèvre PL, Bertran F, Taleb-Ibrahimi A, Yukawa R, Kobayashi M, Horiba K, Kumigashira H, Sumida K, Okuda T, Iga F, and Kimura S

Abstract

A synergistic effect between strong electron correlation and spin-orbit interaction has been theoretically predicted to realize new topological states of quantum matter on Kondo insulators (KIs), so-called topological Kondo insulators (TKIs). One TKI candidate has been experimentally observed on the KI SmB6(001), and the origin of the surface states (SS) and the topological order of SmB6 has been actively discussed. Here, we show a metallic SS on the clean surface of another TKI candidate YbB12(001) using angle-resolved photoelectron spectroscopy. The SS shows temperature-dependent reconstruction corresponding to the Kondo effect observed for bulk states. Despite the low-temperature insulating bulk, the reconstructed SS with c-f hybridization is metallic, forming a closed Fermi contour surrounding on the surface Brillouin zone and agreeing with the theoretically expected behaviour for SS on TKIs. These results demonstrate the temperature-dependent holistic reconstruction of two-dimensional states localized on KIs surface driven by the Kondo effect.

Published

2016

37. One-dimensional metallic surface states of Pt-induced atomic nanowires on Ge(0 0 1).

Author

Yaji K, Kim S, Mochizuki I, Takeichi Y, Ohtsubo Y, Le Fèvre P, Bertran F, Taleb-Ibrahimi A, Shin S, and Komori F

Abstract

Surface states of platinum-induced atomic nanowires on a germanium (0 0 1) surface, which shows a structural phase transition at 80 K, were studied by angle-resolved photoelectron spectroscopy (ARPES). We observed four one-dimensional metallic surface states, among which, two bands were reported in our previous study (Yaji et al 2013 Phys. Rev. B 87 241413). One of the newly-found two bands is a quasi-one-dimensional state and is split into two due to the Rashba effect. Photoelectron intensity from one of the spin-polarized branches is reduced at a boundary of the surface Brillouin zone below the phase transition temperature. The reduction of the photoelectron intensity in the low temperature phase is interpreted as the interference of photoelectrons, not as the Peierls instability. We also discuss the low energy properties of the metallic surface states and their spin splitting using high-resolution ARPES with a vacuum ultraviolet laser.

Published

2016

38. Complete genome sequence of Burkholderia caribensis Bcrs1W (NBRC110739), a strain co-residing with phenanthrene degrader Mycobacterium sp. EPa45.

Author

Ohtsubo Y, Nonoyama S, Ogawa N, Kato H, Nagata Y, and Tsuda M

Subjects

Japan, Soil Microbiology, Burkholderia genetics, Genome, Bacterial genetics, Mycobacterium metabolism, Phenanthrenes metabolism

Abstract

Complete genome sequence of Burkholderia caribensis Bcrs1W, isolated from a phenanthrene-degrading mixed culture, was determined. The genomic information of Bcrs1W will be beneficial to elucidating the mechanisms of its positive effects on phenanthrene degradation by co-residing Mycobacterium sp. Epa45, and to exploiting their degradation potentials., (Copyright © 2016. Published by Elsevier B.V.)

Published

2016

39. Complete Genome Sequence of Sphingopyxis macrogoltabida Strain 203N (NBRC 111659), a Polyethylene Glycol Degrader.

Author

Ohtsubo Y, Nonoyama S, Nagata Y, Numata M, Tsuchikane K, Hosoyama A, Yamazoe A, Tsuda M, Fujita N, and Kawai F

Abstract

We determined the complete genome sequence of Sphingopyxis macrogoltabida strain 203N, a polyethylene glycol degrader. Because the PacBio assembly (285× coverage) seemed to be full of nucleotide-level mismatches, the Newbler assembly of MiSeq mate-pair and paired-end data was used for finishing and the PacBio assembly was used as a reference. The PacBio assembly carried 414 nucleotide mismatches over 5,953,153 bases of the 203N genome., (Copyright © 2016 Ohtsubo et al.)

Published

2016

40. Complete Genome Sequence of Sphingopyxis terrae Strain 203-1 (NBRC 111660), a Polyethylene Glycol Degrader.

Author

Ohtsubo Y, Nonoyama S, Nagata Y, Numata M, Tsuchikane K, Hosoyama A, Yamazoe A, Tsuda M, Fujita N, and Kawai F

Abstract

The complete genome sequence of Sphingopyxis terrae strain 203-1, which is capable of growing on polyethylene glycol, was determined. The genome consisted of a chromosome with a size of 3.98 Mb and a plasmid with a size of 4,328 bp. The strain was deposited to the National Institute of Technology and Evaluation (Tokyo, Japan) under the number NBRC 111660., (Copyright © 2016 Ohtsubo et al.)

Published

2016

41. Complete Genome Sequence of Algoriphagus sp. Strain M8-2, Isolated from a Brackish Lake.

Author

Muraguchi Y, Kushimoto K, Ohtsubo Y, Suzuki T, Dohra H, Kimbara K, and Shintani M

Abstract

Algoriphagus sp. strain M8-2 was isolated from a brackish lake, Lake Sanaru, in Hamamatsu, Japan, as a filterable bacterium through a 0.22-µm-pore-size membrane filter. We report here the complete nucleotide sequence of the M8-2 genome (a 3,882,610-bp chromosome)., (Copyright © 2016 Muraguchi et al.)

Published

2016

42. Complete Genome Sequence of a γ-Hexachlorocyclohexane Degrader, Sphingobium sp. Strain TKS, Isolated from a γ-Hexachlorocyclohexane-Degrading Microbial Community.

Author

Tabata M, Ohhata S, Kawasumi T, Nikawadori Y, Kishida K, Sato T, Ohtsubo Y, Tsuda M, and Nagata Y

Abstract

Here, we report the complete genome sequence of a γ-hexachlorocyclohexane (γ-HCH) degrader,Sphingobiumsp. strain TKS, which was isolated from a γ-HCH-degrading microbial community. The genome of TKS consists of two chromosomes and nine plasmids. Thelingenes for conversion of γ-HCH to β-ketoadipate are dispersed on chromosome 1 and three out of the nine plasmids., (Copyright © 2016 Tabata et al.)

Published

2016

43. Complete Genome Sequence of a γ-Hexachlorocyclohexane-Degrading Bacterium, Sphingobium sp. Strain MI1205.

Author

Tabata M, Ohhata S, Nikawadori Y, Sato T, Kishida K, Ohtsubo Y, Tsuda M, and Nagata Y

Abstract

Here, we report the complete genome sequence of a γ-hexachlorocyclohexane (γ-HCH)-degrading bacterium,Sphingobiumsp. strain MI1205. The genome of MI1205 consists of two chromosomes and four plasmids with sizes of 33 to 292 kb. All thelingenes for γ-HCH metabolism are dispersed on the four plasmids., (Copyright © 2016 Tabata et al.)

Published

2016

44. Complete Genome Sequence of Methylobacterium sp. Strain AMS5, an Isolate from a Soybean Stem.

Author

Minami T, Ohtsubo Y, Anda M, Nagata Y, Tsuda M, Mitsui H, Sugawara M, and Minamisawa K

Abstract

Nonrhizobial Methylobacterium spp. inhabit the phyllosphere of a wide variety of plants. We report here the complete genome sequence of Methylobacterium sp. AMS5, which was isolated from a soybean stem. The information is useful for understanding the molecular mechanisms of the interaction between nonrhizobial Methylobacterium spp. and plants., (Copyright © 2016 Minami et al.)

Published

2016

45. Complete Genome Sequence of Cyanobacterium Leptolyngbya sp. NIES-3755.

Author

Hirose Y, Fujisawa T, Ohtsubo Y, Katayama M, Misawa N, Wakazuki S, Shimura Y, Nakamura Y, Kawachi M, Yoshikawa H, Eki T, and Kanesaki Y

Abstract

Cyanobacterial genus Leptolyngbya comprises genetically diverse species, but the availability of their complete genome information is limited. Here, we isolated Leptolyngbya sp. strain NIES-3755 from soil at the Toyohashi University of Technology, Japan. We determined the complete genome sequence of the NIES-3755 strain, which is composed of one chromosome and three plasmids., (Copyright © 2016 Hirose et al.)

Published

2016

46. Complete genome sequence of cyanobacterium Fischerella sp. NIES-3754, providing thermoresistant optogenetic tools.

Author

Hirose Y, Fujisawa T, Ohtsubo Y, Katayama M, Misawa N, Wakazuki S, Shimura Y, Nakamura Y, Kawachi M, Yoshikawa H, Eki T, and Kanesaki Y

Subjects

Base Composition, Chromosome Mapping, Cyanobacteria classification, Cyanobacteria isolation & purification, Hot Springs, Hot Temperature, Japan, Molecular Sequence Data, Photoreceptors, Microbial genetics, Phytochrome genetics, RNA, Ribosomal genetics, Bacterial Proteins genetics, Base Sequence, Cyanobacteria genetics, Genome, Bacterial, Optogenetics

Abstract

Cyanobacterial phytochrome-class photosensors are recently emerging optogenetic tools. We isolated Fischerella sp. strain NIES-3754 from hotspring at Suwa-shrine, Suwa, Nagano, Japan. We determined complete genome sequence of the NIES-3754 strain, which is composed of one chromosome and two putative replicons (total 5,826,863bp containing no gaps). We identified photosensor genes of 5 phytochromes and 9 cyanobacteriochromes, which will facilitate optogenetics of thermophile., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

47. Complete genome sequence of cyanobacterium Nostoc sp. NIES-3756, a potentially useful strain for phytochrome-based bioengineering.

Author

Hirose Y, Fujisawa T, Ohtsubo Y, Katayama M, Misawa N, Wakazuki S, Shimura Y, Nakamura Y, Kawachi M, Yoshikawa H, Eki T, and Kanesaki Y

Subjects

Bacterial Proteins genetics, Base Composition, Bioengineering methods, DNA, Bacterial genetics, Genome Size, Nostoc isolation & purification, Photoreceptors, Microbial genetics, Plasmids genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Soil Microbiology, Base Sequence, Genome, Bacterial, Nostoc genetics, Phytochrome genetics

Abstract

To explore the diverse photoreceptors of cyanobacteria, we isolated Nostoc sp. strain NIES-3756 from soil at Mimomi-Park, Chiba, Japan, and determined its complete genome sequence. The Genome consists of one chromosome and two plasmids (total 6,987,571 bp containing no gaps). The NIES-3756 strain carries 7 phytochrome and 12 cyanobacteriochrome genes, which will facilitate the studies of phytochrome-based bioengineering., (Copyright © 2015. Published by Elsevier B.V.)

Published

2016

48. Surface Tomonaga-Luttinger-Liquid State on Bi/InSb(001).

Author

Ohtsubo Y, Kishi J, Hagiwara K, Le Fèvre P, Bertran F, Taleb-Ibrahimi A, Yamane H, Ideta S, Matsunami M, Tanaka K, and Kimura S

Subjects

Alloys chemistry, Anisotropy, Photoelectron Spectroscopy, Antimony chemistry, Bismuth chemistry, Indium chemistry, Models, Chemical

Abstract

A 1D metallic surface state was created on an anisotropic InSb(001) surface covered with Bi. Angle-resolved photoelectron spectroscopy (ARPES) showed a 1D Fermi contour with almost no 2D distortion. Close to the Fermi level (E_{F}), the angle-integrated photoelectron spectra showed power-law scaling with the binding energy and temperature. The ARPES plot above E_{F}, obtained thanks to a thermally broadened Fermi edge at room temperature, showed a 1D state with continuous metallic dispersion across E_{F} and power-law intensity suppression around E_{F}. These results strongly suggest a Tomonaga-Luttinger liquid on the Bi/InSb(001) surface.

Published

2015

49. Complete Genome Sequence of Sphingopyxis macrogoltabida Type Strain NBRC 15033, Originally Isolated as a Polyethylene Glycol Degrader.

Author

Ohtsubo Y, Nagata Y, Numata M, Tsuchikane K, Hosoyama A, Yamazoe A, Tsuda M, Fujita N, and Kawai F

Abstract

Sphingopyxis macrogoltabida strain 203, the type strain of the species, grew on polyethylene glycol (PEG) and has been deposited to the stock culture at the Biological Resource Center, National Institute of Technology and Evaluation (NITE), under the number NBRC 15033. Here, we report the complete genome sequence of strain NBRC 15033. Unfortunately, genes for PEG degradation were missing., (Copyright © 2015 Ohtsubo et al.)

Published

2015

50. Complete Genome Sequence of a Polypropylene Glycol-Degrading Strain, Microbacterium sp. No. 7.

Author

Ohtsubo Y, Nagata Y, Numata M, Tsuchikane K, Hosoyama A, Yamazoe A, Tsuda M, Fujita N, and Kawai F

Abstract

Microbacterium (formerly Corynebacterium) sp. No. 7 was isolated from activated sludge as a polypropylene glycol (PPG)-assimilating bacterial strain. Its oxidative PPG degradation has been proposed on the basis of PPG dehydrogenase activity and the metabolic products. Here, we report the complete genome sequence of Microbacterium sp. No. 7. The genome of the strain No. 7 is composed of a 4,599,046-bp circular chromosome and two linear plasmids. The whole finishing was conducted in silico with aids of the computational tools GenoFinisher and AceFileViewer. Strain No. 7 is available from the Biological Resource Center, National Institute of Technology and Evaluation (NITE) (Tokyo, Japan)., (Copyright © 2015 Ohtsubo et al.)

Published

2015