Your search keyword '"Masaaki, Morikawa"' showing total 52 results

1. Growth Promotion of Giant Duckweed Spirodela polyrhiza (Lemnaceae) by Ensifer sp. SP4 Through Enhancement of Nitrogen Metabolism and Photosynthesis

Author

Kazuhiro Mori, Masaaki Morikawa, Tadashi Toyama, Michihiko Ike, and Yasuhiro Tanaka

Subjects

Physiology, duckweed, ved/biology.organism_classification_rank.species, Biomass, Biology, Photosynthesis, nitrogen metabolism, chemistry.chemical_compound, Spirodela polyrhiza, Ensifer sp, Relative growth rate, Botany, Terrestrial plant, Nitrogen cycle, photosynthesis, ved/biology, RuBisCO, General Medicine, biology.organism_classification, plant-bacteria interaction, chemistry, Chlorophyll, biology.protein, Agronomy and Crop Science, plant-growth-promoting bacteria

Abstract

Duckweeds (Lemnaceae) are representative producers in fresh aquatic ecosystems and also yield sustainable biomass for animal feeds, human foods, and biofuels, and contribute toward effective wastewater treatment; thus, enhancing duckweed productivity is a critical challenge. Plant-growth-promoting bacteria (PGPB) can improve the productivity of terrestrial plants; however, duckweed–PGPB interactions remain unclear and no previous study has investigated the molecular mechanisms underlying duckweed–PGPB interaction. Herein, a PGPB, Ensifer sp. strain SP4, was newly isolated from giant duckweed (Spirodela polyrhiza), and the interactions between S. polyrhiza and SP4 were investigated through physiological, biochemical, and metabolomic analyses. In S. polyrhiza and SP4 coculture, SP4 increased the nitrogen (N), chlorophyll, and ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO) contents and the photosynthesis rate of S. polyrhiza by 2.5-, 2.5-, 2.7-, and 2.4-fold, respectively. Elevated photosynthesis increased the relative growth rate and biomass productivity of S. polyrhiza by 1.5- and 2.7-fold, respectively. Strain SP4 significantly altered the metabolomic profile of S. polyrhiza, especially its amino acid profile. N stable isotope analysis revealed that organic N compounds were transferred from SP4 to S. polyrhiza. These N compounds, particularly glutamic acid, possibly triggered the increase in photosynthetic and growth activities. Accordingly, we propose a new model for the molecular mechanism underlying S. polyrhiza growth promotion by its associated bacteria Ensifer sp. SP4, which occurs through enhanced N compound metabolism and photosynthesis. Our findings show that Ensifer sp. SP4 is a promising PGPB for increasing biomass yield, wastewater purification activity, and CO2 capture of S. polyrhiza. [Formula: see text] Copyright © 2021 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license .

Published

2022

2. Enhanced lipid productivity of Chlamydomonas reinhardtii with combination of NaCl and CaCl2 stresses

Author

Tadashi Toyama, Le Thai Hang, Yasuhiro Tanaka, Kazuhiro Mori, and Masaaki Morikawa

Subjects

inorganic chemicals, 0106 biological sciences, chemistry.chemical_classification, Lipid accumulation, biology, 010405 organic chemistry, Chlamydomonas reinhardtii, Salt (chemistry), Bioengineering, Dehydrogenase, macromolecular substances, General Medicine, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Salinity, Productivity (ecology), chemistry, 010608 biotechnology, Lipid content, Food science, Industrial and production engineering, Biotechnology

Abstract

Salinity (NaCl) stress treatment is a strategy to induce lipid accumulation in microalgae. This study aimed to investigate the effect of a combination of two salts (NaCl/CaCl2) on lipid productivity of Chlamydomonas reinhardtii. C. reinhardtii was cultured in a two-stage culture comprising 9-day active growth in C medium followed by 3-day salt stress in C medium with various concentrations of NaCl (50‒200 mM)/CaCl2 (100 mM). In salt stress stage, NaCl (200 mM), CaCl2 (100 mM), and the NaCl/CaCl2 mixture inhibited growth but increased the lipid content in C. reinhardtii in comparison with NaCl (0, 50, and 100 mM) conditions. Combinatorial treatment with 100 mM NaCl/100 mM CaCl2 resulted in the highest lipid content (73.4%) and lipid productivity (10.9 mg/L/days), being 3.5- and 2.1-fold, respectively, in salt-free control conditions, and 1.8- and 1.5-folds, respectively, with 200 mM NaCl. Furthermore, 100 mM NaCl/100 mM CaCl2 treatment markedly upregulated glycerol-3-phosphate dehydrogenase (GPDH), lysophosphatidic acid acyltransferase (LPAAT), and diacylglycerol acyltransferase (DAGAT), which are involved in lipid accumulation in C. reinhardtii. The upregulation of these genes with 100 mM NaCl/100 mM CaCl2 resulted in the highest lipid content in C. reinhardtii. Therefore, stress treatment using two salts, 100 mM NaCl/100 mM CaCl2, is a potentially promising strategy to enhance lipid productivity in microalgae.

Published

2020

3. A cyclic lipopeptide surfactin is a species-selective Hsp90 inhibitor that suppresses cyanobacterial growth

Author

Hitoshi Nakamoto, Takashi Fujishiro, Yuhei Yokoyama, Yuri Miyamoto, Masaaki Morikawa, Takahiro Suzuki, and Yoshihiko Miyata

Subjects

Conformational change, Protein family, macromolecular substances, Saccharomyces cerevisiae, medicine.disease_cause, Biochemistry, Peptides, Cyclic, chemistry.chemical_compound, Lipopeptides, Mice, Adenosine Triphosphate, ATP hydrolysis, Heat shock protein, Chlorocebus aethiops, medicine, Escherichia coli, Animals, Humans, HSP90 Heat-Shock Proteins, Molecular Biology, chemistry.chemical_classification, Adenosine Triphosphatases, Synechococcus, biology, Colistin, Hydrolysis, General Medicine, Hsp90, Cyclic peptide, Anti-Bacterial Agents, Molecular Docking Simulation, chemistry, COS Cells, biology.protein, NIH 3T3 Cells, lipids (amino acids, peptides, and proteins), Surfactin, Dimerization

Abstract

Heat shock protein 90 (Hsp90) is essential for eukaryotic cells, whereas bacterial homologs play a role under stresses and in pathogenesis. Identifying species-specific Hsp90 inhibitors is challenging because Hsp90 is evolutionarily conserved. We found that a cyclic lipopeptide surfactin inhibits the ATPase activity of Hsp90 from the cyanobacterium Synechococcus elongatus (S.elongatus) PCC 7942 but does not inhibit Escherichia coli (E.coli), yeast and human Hsp90s. Molecular docking simulations indicated that surfactin could bind to the N-terminal dimerization interface of the cyanobacterial Hsp90 in the ATP- and ADP-bound states, which provided molecular insights into the species-selective inhibition. The data suggest that surfactin inhibits a rate-limiting conformational change of S.elongatus Hsp90 in the ATP hydrolysis. Surfactin also inhibited the interaction of the cyanobacterial Hsp90 with a model substrate, and suppressed S.elongatus growth under heat stress, but not that of E.coli. Surfactin did not show significant cellular toxicity towards mammalian cells. These results indicate that surfactin inhibits the cellular function of Hsp90 specifically in the cyanobacterium. The present study shows that a cyclic peptide has a great specificity to interact with a specific homolog of a highly conserved protein family.

Published

2020

4. Indigenous bacteria, an excellent reservoir of functional plant growth promoters for enhancing duckweed biomass yield on site

Author

Rahul Jog, Masaaki Morikawa, Chanita Boonmak, Yeni Khairina, Tokitaka Oyama, and Tadashi Toyama

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Lemna gibba, 0208 environmental biotechnology, Biomass, 02 engineering and technology, 010501 environmental sciences, engineering.material, 01 natural sciences, Nutrient, Pseudomonas, Environmental Chemistry, Araceae, Nitrogen cycle, Effluent, 0105 earth and related environmental sciences, biology, Bacteria, Chemistry, Pseudomonas fulva, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, biology.organism_classification, Pollution, 020801 environmental engineering, Wastewater, Agronomy, engineering, Fertilizer

Abstract

The advantages of aquatic biomass production using wastewater as a cost-free fertilizer have recently been highlighted. Here, we report a successful study in which duckweed, Lemna gibba, biomass production in a food factory effluent containing low nitrogen and high salts was enhanced by employing customized plant growth-promoting bacteria (PGPB). Two common PGPB strains previously obtained from natural pond water, Acinetobacter calcoaceticus P23 and Pseudomonas fulva Ps6, hardly promoted the growth of duckweed; on the contrary, they inhibited its growth in treated factory wastewater, far different water conditions. Then, we asked if some indigenous wastewater bacteria could promote the growth of duckweed. We found that Chryseobacterium strains, a group of bacteria with limited nitrogen metabolism, were dominantly selected as effective PGPB. Moreover, we demonstrated that nitrogen limitation is the crucial environmental factor that induces the plant growth-inhibiting behavior of A. calcoaceticus P23 through competition for mineral nutrients with the host duckweed. This study uncovered points to be considered in PGPB technology to achieve efficient production of duckweed biomass in a factory effluent with unbalanced content of mineral nutrients.

Published

2020

5. Enhanced biomass production and nutrient removal capacity of duckweed via two-step cultivation process with a plant growth-promoting bacterium, Acinetobacter calcoaceticus P23

Author

Hidehiro Ishizawa, Ko-ichiro Tokura, Tadashi Toyama, Yasuhiro Tanaka, Masaaki Morikawa, Michihiko Ike, Yoshiyuki Hachiya, Masashi Kuroda, Daisuke Inoue, Kazuhiro Mori, and Yuka Ogata

Subjects

Environmental Engineering, Nitrogen, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, chemistry.chemical_element, Biomass, Plant Development, Fresh Water, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Water Purification, Nutrient, Hydroponics, Aquatic plant, Environmental Chemistry, Araceae, Acinetobacter calcoaceticus, 0105 earth and related environmental sciences, biology, Inoculation, Phosphorus, Microbiota, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Nutrients, biology.organism_classification, Pollution, 020801 environmental engineering, Horticulture, chemistry, Microbial population biology, Sewage treatment

Abstract

Plant growth-promoting bacteria (PGPB) are considered a promising tool to improve biomass production and water remediation by the aquatic plant, duckweed; however, no effective methodology is available to utilize PGPB in large hydroponic systems. In this study, we proposed a two-step cultivation process, which comprised of a “colonization step” and a “mass cultivation step,” and examined its efficacy in both bucket-scale and flask-scale cultivation experiments. We showed that in the outdoor bucket-scale experiments using three kinds of environmental water, plants cultured through the two-step cultivation method with the PGPB strain, Acinetobacter calcoaceticus P23, yielded 1.9 to 2.3 times more biomass than the control (without PGPB inoculation). The greater nitrogen and phosphorus removals compared to control were also attained, indicating that this strategy is useful for accelerating nutrient removal by duckweed. Flask-scale experiments using non-sterile pond water revealed that inoculation of strain P23 altered duckweed surface microbial community structures, and the beneficial effects of the inoculated strain P23 could last for 5–10 d. The loss of the duckweed growth-promoting effect was noticeable when the colonization of strain P23 decreased in the plant. These observations suggest that the stable colonization of the plant with PGPB is the key for maintaining the accelerated duckweed growth and nutrient removal in this cultivation method. Overall, our results suggest the possibility of an improved duckweed production using a two-step cultivation process with PGPB.

Published

2019

6. Comprehensive evaluation of nitrogen removal rate and biomass, ethanol, and methane production yields by combination of four major duckweeds and three types of wastewater effluent

Author

Tadashi Toyama, Tsubasa Hanaoka, Kazuhiro Mori, Masaaki Morikawa, and Yasuhiro Tanaka

Subjects

Environmental Engineering, Nitrogen, 020209 energy, Lemna gibba, Biomass, Bioengineering, 02 engineering and technology, 010501 environmental sciences, Wastewater, 01 natural sciences, Spirodela polyrhiza, Botany, 0202 electrical engineering, electronic engineering, information engineering, Animals, Araceae, Ethanol fuel, Waste Management and Disposal, Effluent, 0105 earth and related environmental sciences, biology, Ethanol, Renewable Energy, Sustainability and the Environment, Chemistry, General Medicine, biology.organism_classification, Anaerobic digestion, Biofuel, Environmental chemistry, Denitrification, Methane

Abstract

To assess the potential of duckweeds as agents for nitrogen removal and biofuel feedstocks, Spirodela polyrhiza, Lemna minor, Lemna gibba, and Landoltia punctata were cultured in effluents of municipal wastewater, swine wastewater, or anaerobic digestion for 4 days. Total dissolved inorganic nitrogen (T-DIN) of 20–50 mg/L in effluents was effectively removed by inoculating with 0.3–1.0 g/L duckweeds. S. polyrhiza showed the highest nitrogen removal (2.0–10.8 mg T-DIN/L/day) and biomass production (52.6–70.3 mg d.w./L/day) rates in all the three effluents. Ethanol and methane were produced from duckweed biomass grown in each effluent. S. polyrhiza and L. punctata biomass showed higher ethanol (0.168–0.191, 0.166–0.172 and 0.174–0.191 g-ethanol/g-biomass, respectively) and methane (340–413 and 343–408 NL CH4/kg VS, respectively) production potentials than the others, which is related to their higher carbon and starch contents and calorific values.

Published

2017

7. Production of massoia lactone by Aureobasidium pullulans YTP6-14 isolated from the Gulf of Thailand and its fragrant biosurfactant properties

Author

Sudarat Luepongpattana, Masaaki Morikawa, and Jiraporn Thaniyavarn

Subjects

0106 biological sciences, 0301 basic medicine, Green chemistry, Cryptocarya, Fungus, 01 natural sciences, Applied Microbiology and Biotechnology, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Lactones, Surface-Active Agents, Ascomycota, 010608 biotechnology, Massoia lactone, Surface Tension, Food science, Micelles, Aqueous solution, biology, General Medicine, biology.organism_classification, Thailand, Aureobasidium pullulans, 030104 developmental biology, chemistry, Critical micelle concentration, visual_art, visual_art.visual_art_medium, Bark, Biotechnology

Abstract

Aims In order to add to the existing knowledge about structural diversity of biosurfactants, marine environment was chosen to discover a new type of biosurfactant-producing fungus. Methods and Results A number of fungi were collected from the Gulf of Thailand and examined for biosurfactant productivities. A dimorphic fungus, Aureobasidium pullulans YTP6-14, produced several different biosurfactants in both heavy oil and aqueous layers of the culture. Surface tension of the aqueous layer was decreased to 31·4 mN m−1 and oil displacement area reached 53 cm2/10 μl after 7 days of cultivation. Critical micelle concentration and minimum surface tension values of the crude biosurfactants prepared from the aqueous layer were 39 mg l−1 and 31·6 mN m−1 respectively. Surface tension values remained unchanged over a wide range of pH and NaCl concentrations, suggesting their nonionic feature. LC/MS and NMR analyses revealed that one of the main active compounds in the aqueous layer was 5-hydroxy-2-decenoic acid delta-lactone, known as massoia lactone. Massoia lactone indeed showed significant surface tension reduction capacity of 43·3 mN m−1 at 1 mg ml−1. Significance and Impact of the Study This is the first report for the production of a fragrant biosurfactant, massoia lactone by a fungus A. pullulans. Massoia lactone has been industrially prepared from aromatic bark of an endangered tree species, Cryptocarya massoy, growing in rainforests. This report expands the diversity of biosurfactants produced by A. pullulans and also points to its possibility in contributing to the green sustainable chemistry, and ultimately rainforest conservation.

Published

2017

8. Cloning and expression of three ladA-type alkane monooxygenase genes from an extremely thermophilic alkane-degrading bacterium Geobacillus thermoleovorans B23

Author

Yasunori Takahashi, Masaaki Morikawa, and Chanita Boonmak

Subjects

Sequence analysis, Pseudomonas fluorescens, Microbiology, Geobacillus, LadA alkane monooxygenase, Alkane degradation, Plasmid, Bacterial Proteins, Alkanes, Cloning, Molecular, Peptide sequence, Phylogeny, Geobacillus thermoleovorans B23, Genome, biology, Thermophile, General Medicine, Monooxygenase, biology.organism_classification, Biochemistry, Genes, Bacterial, Molecular Medicine, Cytochrome P-450 CYP4A, Bacteria

Abstract

An extremely thermophilic bacterium, Geobacillus thermoleovorans B23, is capable of degrading a broad range of alkanes (with carbon chain lengths ranging between C11 and C32) at 70 A degrees C. Whole-genome sequence analysis revealed that unlike most alkane-degrading bacteria, strain B23 does not possess an alkB-type alkane monooxygenase gene. Instead, it possesses a cluster of three ladA-type genes, ladA alpha(B23), ladA beta(B23), and ladB (B23), on its chromosome, whose protein products share significant amino acid sequence identities, 49.8, 34.4, and 22.7 %, respectively, with that of ladA alkane monooxygenase gene found on a plasmid of Geobacillus thermodetrificans NG 80-2. Each of the three genes, ladA alpha(B23), ladA beta(B23), and ladB (B23), was heterologously expressed individually in an alkB1 deletion mutant strain, Pseudomonas fluorescens KOB2 Delta 1. It was found that all three genes were functional in P. fluorescens KOB2 Delta 1, and partially restored alkane degradation activity. In this study, we suggest that G. thermoleovorans B23 utilizes multiple LadA-type alkane monooxygenases for the degradation of a broad range of alkanes.

Published

2014

9. Transformation ofiso-pentylbenzene by a biofilm-forming strain ofCandida viswanathiiTH1 isolated from oil-polluted sediments collected in coastal zones in Vietnam

Author

Le Thi Nhi Cong, Nghiem Ngoc Minh, Cung Thi Ngoc Mai, and Masaaki Morikawa

Subjects

Geologic Sediments, Chromatography, Gas, Environmental Engineering, biology, Strain (chemistry), Candida viswanathii, Biofilm, Benzene, General Medicine, Phenylacetic acid, biology.organism_classification, Yeast, chemistry.chemical_compound, Biodegradation, Environmental, Vietnam, chemistry, Biotransformation, Succinic acid, Biofilms, Organic chemistry, Environmental Pollutants, Petroleum Pollution, Candida, Benzoic acid

Abstract

This work is aimed to assess the aerobic biotransformation of a branched side chain alkylbenzene, iso-pentylbenzene, by Candida viswanathii TH1. The yeast Candida viswanathii TH1 isolated from oil-polluted sediments collected in coastal zones in Vietnam exhibited as a strain that could better transform branched aromatic hydrocarbons in biofilm (pellicle) than in planktonic form. During incubation of TH1 as biofilm with iso-pentylbenzene, the seven intermediates produced were benzoic acid, phenylacetic acid, 2-methyl-4-phenyl-butan-1-ol, 2-hydroxy-phenylacetic acid, 2-methyl-4-phenylbutyric acid, succinic acid and iso-valerophenone as revealed by gas chromatography/mass spectra and high-performance liquid chromatography analyses. The occurrence of these intermediates showed that iso-pentylbenzene could be oxidized not only via mono- but also by a sub-terminal oxidation pathway. This is the first study on iso-pentylbenzene transformation by a biofilm-forming Candida viswanathii strain. The catabolic versatility of the biofilm-forming strain TH1 and its use for mono and sub-terminal oxidation during the transformation of iso-pentylbenzene enhance our understanding of the degradation of branched side chain phenylalkanes and give new insight into the potential role of such species in the transformation of other recalcitrant aromatic compounds.

Published

2014

10. Isolation and Characterization of a Thermotolerant Ammonia-Oxidizing Bacterium Nitrosomonas sp. JPCCT2 from a Thermal Power Station

Author

Keiko Sakagami, Yoshihito Uchino, Chanita Boonmak, Mitsufumi Matsumoto, Tetsuro Oriyama, Yoshikane Itoh, Masaaki Morikawa, and Fuyumi Tojo

Subjects

biology, Strain (chemistry), Soil Science, Plant Science, General Medicine, biology.organism_classification, 16S ribosomal RNA, Ammonia, chemistry.chemical_compound, Activated sludge, chemistry, Phylogenetics, Botany, Oxidizing agent, Ecology, Evolution, Behavior and Systematics, Bacteria, Nitrosomonas

Abstract

A thermotolerant ammonia-oxidizing bacterium strain JPCCT2 was isolated from activated sludge in a thermal power station. Cells of JPCCT2 are short non-motile rods or ellipsoidal. Molecular phylogenetic analysis of 16S rRNA gene sequences demonstrated that JPCCT2 belongs to the genus Nitrosomonas with the highest similarity to Nitrosomonas nitrosa Nm90 (100%), Nitrosomonas sp. Nm148 (99.7%), and Nitrosomonas communis Nm2 (97.7%). However, G+C content of JPCCT2 DNA was 49.1 mol% and clearly different from N. nitrosa Nm90, 47.9%. JPCCT2 was capable of growing at temperatures up to 48 °C, while N. nitrosa Nm90 and N. communis Nm2 could not grow at 42°C. Moreover, JPCCT2 grew similarly at concentrations of carbonate 0 and 5 gL(-1). This is the first report that Nitrosomonas bacterium is capable of growing at temperatures higher than 37°C.

Published

2013

11. Efficacy of forming biofilms by naphthalene degrading Pseudomonas stutzeri T102 toward bioremediation technology and its molecular mechanisms

Author

Kenji Washio, Yoshikane Itoh, Masaaki Morikawa, and Kohei Shimada

Subjects

Bioaugmentation, Environmental Engineering, Health, Toxicology and Mutagenesis, Naphthalenes, Microbiology, chemistry.chemical_compound, Bioremediation, Pseudomonas, Soil Pollutants, Environmental Chemistry, Incubation, Soil Microbiology, Naphthalene, Pseudomonas stutzeri, biology, fungi, Public Health, Environmental and Occupational Health, Biofilm, Naphthalene degradation, General Medicine, General Chemistry, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Pollution, Biodegradation, Environmental, chemistry, Biofilms, Degradation (geology), Bacteria

Abstract

In natural environments, bacteria often exist in close association with surfaces and interfaces. There they form “biofilms”, multicellular aggregates held together by an extracellular matrix. The biofilms confer on the constituent cells high resistance to environmental stresses and diverse microenvironments that help generate cellular heterogeneity. Here we report on the ability of Pseudomonas stutzeri T102 biofilm-associated cells, as compared with that of planktonic cells, to degrade naphthalene and survive in petroleum-contaminated soils. In liquid culture system, T102 biofilm-associated cells did not degrade naphthalene during initial hours of incubation but then degraded it faster than planktonic cells, which degraded naphthalene at a nearly constant rate. This delayed but high degradation activity of the biofilms could be attributed to super-activated cells that were detached from the biofilms. When the fitness of T102 biofilm-associated cells was tested in natural petroleum-contaminated soils, they were capable of surviving for 10 wk; by then T102 planktonic cells were mostly extinct. Naphthalene degradation activity in the soils that had been inoculated with T102 biofilms was indeed higher than that observed in soils inoculated with T102 planktonic cells. These results suggest that inoculation of contaminated soils with P. stutzeri T102 biofilms should enable bioaugmentation to be a more durable and effective bioremediation technology than inoculation with planktonic cells.

Published

2012

12. Diversity of Nonribosomal Peptide Synthetases Involved in the Biosynthesis of Lipopeptide Biosurfactants

Author

Kenji Washio, Niran Roongsawang, and Masaaki Morikawa

Subjects

nonribosomal peptide synthetases (NRPSs), Swarming motility, Peptide, Bacillus, Review, Biology, Catalysis, Inorganic Chemistry, lcsh:Chemistry, chemistry.chemical_compound, Lipopeptides, Surface-Active Agents, Biosynthesis, Nonribosomal peptide, Pseudomonas, Physical and Theoretical Chemistry, Peptide Synthases, lipopeptide biosurfactants (LPBSs), Molecular Biology, lcsh:QH301-705.5, Spectroscopy, chemistry.chemical_classification, nonribosomal peptides, Organic Chemistry, Biofilm, Lipopeptide, Translation (biology), General Medicine, Gene Expression Regulation, Bacterial, biology.organism_classification, Computer Science Applications, chemistry, Biochemistry, lcsh:Biology (General), lcsh:QD1-999, Genetic Engineering, Hydrophobic and Hydrophilic Interactions

Abstract

Lipopeptide biosurfactants (LPBSs) consist of a hydrophobic fatty acid portion linked to a hydrophilic peptide chain in the molecule. With their complex and diverse structures, LPBSs exhibit various biological activities including surface activity as well as anti-cellular and anti-enzymatic activities. LPBSs are also involved in multi-cellular behaviors such as swarming motility and biofilm formation. Among the bacterial genera, Bacillus (Gram-positive) and Pseudomonas (Gram-negative) have received the most attention because they produce a wide range of effective LPBSs that are potentially useful for agricultural, chemical, food, and pharmaceutical industries. The biosynthetic mechanisms and gene regulation systems of LPBSs have been extensively analyzed over the last decade. LPBSs are generally synthesized in a ribosome-independent manner with megaenzymes called nonribosomal peptide synthetases (NRPSs). Production of active‑form NRPSs requires not only transcriptional induction and translation but also post‑translational modification and assemblage. The accumulated knowledge reveals the versatility and evolutionary lineage of the NRPSs system. This review provides an overview of the structural and functional diversity of LPBSs and their different biosynthetic mechanisms in Bacillus and Pseudomonas, including both typical and unique systems. Finally, successful genetic engineering of NRPSs for creating novel lipopeptides is also discussed.

Published

2010

13. The Role of Urease Activity on Biofilm Formation byStaphylococcussp. T-02 Isolated from the Toilet Bowl

Author

Kaihei Oki, Daigo Matsui, Kenji Washio, Yoshihiko Hirata, Masaaki Morikawa, and Shinichi Kato

Subjects

Micrococcaceae, Urease, Staphylococcus, Microorganism, Urine, Biology, medicine.disease_cause, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Microbiology, Ammonia, medicine, Toilet Facilities, Molecular Biology, Phylogeny, chemistry.chemical_classification, Strain (chemistry), Organic Chemistry, Biofilm, General Medicine, biology.organism_classification, Enzyme, chemistry, Biofilms, biology.protein, Bacteria, Biotechnology

Abstract

Urolith, which consists of dirty yellow-colored attachments on the toilet bowl, is associated with a variety of odorous chemicals, including ammonia, and causes disadvantages in daily life. Although largely it is derived from microorganisms, little is known about the microbial processes underlying the formation of urolith. In order to gain insight into the types and the activities of microorganisms present in urolith, culturable bacteria were isolated, identified, and physiologically characterized. One of the isolates exhibited higher ability to produce ammonia when it was grown in artificial urine medium. Phylogenetic and physiological analyses indicated that this strain (T-02) belonged to a new group of Staphylococcus species, showing combined phenotypes as between S. lentus and S. xylosus. T-02 exhibited high urease activity and was capable of growing in the urinary condition by forming robust biofilms. The results of this study indicate that T-02 has successfully adapted itself to the environment of urolith.

Published

2010

14. Autochthonous bioaugmentation and its possible application to oil spills

Author

Hidetoshi Okuyama, Motonori Nagai, Masaaki Morikawa, and Reia Hosokawa

Subjects

Bioaugmentation, Sakhalin oil field, Autochthonous bioaugmentation, Physiology, fungi, Oil spill, food and beverages, General Medicine, Biodegradation, Contamination, Applied Microbiology and Biotechnology, Biostimulation, Bioremediation, Reinoculation, Environmental protection, Environmental science, Water quality, Oil field, Water pollution, Enrichment cultivation, Biotechnology

Abstract

Bioaugmentation for oil spills is a much more promising technique than is biostimulation. However, the effectiveness of bioaugmentation is variable, because the survival and the xenobiotic-degrading ability of introduced microorganisms are highly dependent on environmental conditions. As an alternative, autochthonous bioaugmentation (ABA) is proposed to overcome these difficulties. The ABA method is like a ready-made bioaugmentation technology. In ABA, microorganisms indigenous to the contaminated site or predicted contamination site that are well-characterized and potentially capable of degrading oils are used, and these microorganisms should be enriched under conditions where bioaugmentation will be conducted. It is possible to obtain information in advance on the chemical and physical characteristics of potential oil spill sites and of oils that might be spilled. The application of ABA in the coastal areas of Hokkaido Prefecture, Japan, is considered here, because Hokkaido is located south of Sakhalin Island, Russia, where development of oil fields is in progress. If oil spills in this region were well characterized in advance, ABA could be a feasible technology in the near future.

Published

2009

15. Functional Analysis of A Pyoverdine Synthetase fromPseudomonassp. MIS38

Author

Niran Roongsawang, Siew Ping Lim, Kenji Washio, and Masaaki Morikawa

Subjects

Stereochemistry, arthrofactin, Peptide, Biology, Pseudomonas fluorescens, Peptides, Cyclic, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, pyoverdine synthetase, chemistry.chemical_compound, Nonribosomal peptide, Pseudomonas, fluorescent Pseudomonas, Peptide Synthases, Molecular Biology, chemistry.chemical_classification, Pyoverdine, nonribosomal peptide, Organic Chemistry, General Medicine, biology.organism_classification, Cyclic peptide, Protein Structure, Tertiary, Enzyme, chemistry, Pseudomonadales, Oligopeptides, gene disruption, Biotechnology, Pseudomonadaceae

Abstract

Fluorescent Pseudomonas sp. MIS38 produces a cyclic lipopeptide, arthrofactin. Arthrofactin is synthesized by a unique nonribosomal peptide synthetase (NRPS) with dual C/E-domains. In this study, another class of cyclic peptide, pyoverdine, was isolated from MIS38, viz., Pvd38. The main fraction of Pvd38 had an m/z value of 1,064.57 and contained Ala, Glu, Gly, (OHOrn), Ser, and Thr at a ratio of 2:1:1:(1):1:1 in the peptide part, suggesting a new structure compound. A gene encoding NRPS for the chromophore part of Pvd38 was identified, and we found that it contained a conventional E-domain. Gene disruption completely impaired the production of Pvd38, demonstrating that the synthetase is functional. This observation allows us to conclude that different NRPS systems with dual C/E-domains (in arthrofactin synthetase) and a conventional E-domain (in pyoverdine synthetase) are both functional in MIS38.

Published

2007

16. Gentisate 1,2-dioxygenase from Xanthobacter polyaromaticivorans 127W

Author

Shin-ichi Hirano, Kazufumi Takano, Masaaki Morikawa, Shigenori Kanaya, and Tadayuki Imanaka

Subjects

Protein Denaturation, Molecular Sequence Data, naphthoate, Applied Microbiology and Biotechnology, Biochemistry, Dioxygenases, Substrate Specificity, Analytical Chemistry, Tetramer, Dioxygenase, gentisate 1,2-dioxygenase, Xanthobacter, Amino Acid Sequence, education, Molecular Biology, Peptide sequence, education.field_of_study, biology, Chemistry, Organic Chemistry, Dioxygenase activity, Temperature, General Medicine, biology.organism_classification, Pseudomonas alcaligenes, Pseudaminobacter salicylatoxidans, ferric ion, Kinetics, gentisate, Sequence Alignment, Biotechnology, Bradyrhizobium japonicum

Abstract

A putative gentisate 1,2-dioxygenase was encoded in the dibenzothiophene degradation gene cluster (dbd) from Xanthobacter polyaromaticivorans 127W. The deduced amino acid sequence showed high sequence similarity with gentisate dioxygenases from Pseudomonas alcaligenes (AAD49427, 65% identical), Bradyrhizobium japonicum (NP_766750, 64%), and P. aeruginosa (ZP_00135722, 54%), and moderate similarity with 1-hydroxy-2-naphthoate dioxygenase from Nocardioides sp. KP7 (BAA31235, 33%) and salicylate dioxygenase from Pseudaminobacter salicylatoxidans (AAQ91293, 33%). The enzyme, GDOxp, was heterologously produced in Escherichia coli and purified to homogeneity. GDOxp formed a tetramer and exhibited high dioxygenase activity against 1,4-dihydroxy 2-naphthoate as well as gentisate, suggesting unusually broad substrate specificity. GDOxp easily released ferrous ion under unfavorable temperature and pH conditions to become an inactive monomer protein. An inactive monomer protein can reconstitute a tetramer structure and restore enzyme activity in a cooperative manner upon the addition of ferrous ion. Chymotryptic digestion and protein truncation experiments suggested that the N-terminal region is important for the tetramerization of GDOxp.

Published

2007

17. Isolation and characterization of an early colonizing Rhizobium sp. R8 from a household toilet bowl

Author

Mitsuhiro Gomi, Masaaki Morikawa, Toru Fukano, and Yukihiko Osaki

Subjects

Urease, education, Microbial Consortia, Molecular Sequence Data, Mannose, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Microbiology, chemistry.chemical_compound, RNA, Ribosomal, 16S, Household Articles, Molecular Biology, Phylogeny, biology, Strain (chemistry), Base Sequence, Organic Chemistry, Polysaccharides, Bacterial, Biofilm, General Medicine, biology.organism_classification, 16S ribosomal RNA, chemistry, Galactose, Biofilms, Nitrogen fixation, biology.protein, Rhizobium, Biotechnology

Abstract

The bacterial community structure was compared between the third days’, one week’, and three weeks’ biofilm samples from the surface of a household toilet bowl. It was found that the PCR-DGGE band pattern of 16S rRNA gene was dramatically changed after the third day and was not further changed until three weeks. This result suggests that there are early and late colonizing bacterial groups. One of the early colonizers isolated from the third days’ sample was Rhizobium sp. R8, a closest relative to Rhizobium giardinii, which exhibited the highest biofilm formation activity in an artificial urine condition. R8 produced extracellular polysaccharides containing galactose, glucose, and mannose at the molar ratio of 8:1:1, which were probably responsible for the biofilm formation. Its excelled biofilm formation and urease activities together with the lack of nodulation and nitrogen fixing genes in R8 suggest that this strain has been specifically adapted to urine condition in a toilet bowl.

Published

2015

18. Cleavage of Various Peptides with Pitrilysin fromEscherichia coli: Kinetic Analyses Using β-Endorphin and Its Derivatives

Author

Atsuko Kohara, Shigenori Kanaya, Masaaki Morikawa, Joel C. Cornista, Satoshi Ikeuchi, Kazufumi Takano, and Mitsuru Haruki

Subjects

Molecular Sequence Data, Peptide, Biology, Cleavage (embryo), medicine.disease_cause, Applied Microbiology and Biotechnology, Biochemistry, Substrate Specificity, Analytical Chemistry, Bacterial Proteins, Escherichia coli, medicine, Amino Acid Sequence, Enzyme kinetics, Protein Precursors, Molecular Biology, chemistry.chemical_classification, Hydrolysis, beta-Endorphin, Organic Chemistry, Metalloendopeptidases, General Medicine, biology.organism_classification, Enterobacteriaceae, Amino acid, Pitrilysin, Enzyme, Amino Acid Substitution, chemistry, Peptides, Biotechnology

Abstract

Pitrilysin from Escherichia coli was overproduced, purified, and analyzed for enzymatic activity using 14 peptides as a substrate. Pitrilysin cleaved all the peptides, except for two of the smallest, at a limited number of sites, but showed little amino acid specificity. It cleaved beta-endorphin (beta-EP) most effectively, with a K(m) value of 0.36 microM and a k(cat) value of 750 min(-1). beta-EP consists of 31 residues and was predominantly cleaved by the enzyme at Lys(19)-Asn(20). Kinetic analyses using a series of beta-EP derivatives with N and/or C-terminal truncations and with amino acid substitutions revealed that three hydrophobic residues (Leu(14), Val(15), and Leu(17)) and the region 22-26 in beta-EP are responsible for high-affinity recognition by the enzyme. These two regions are located on the N- and C-terminal sides of the cleavage site in beta-EP, suggesting that the substrate binding pocket of pitrilysin spans its catalytic site.

Published

2004

19. Isolation and characterization of a halotolerant Bacillus subtilis BBK-1 which produces three kinds of lipopeptides: bacillomycin L, plipastatin, and surfactin

Author

Takayuki Kameyama, Shigenori Kanaya, Tadayuki Imanaka, Suthep Thaniyavarn, Mitsuru Haruki, Niran Roongsawang, Jiraporn Thaniyavarn, and Masaaki Morikawa

Subjects

DNA, Bacterial, Molecular Sequence Data, Transferases (Other Substituted Phosphate Groups), Bacillus subtilis, Microbiology, DNA, Ribosomal, Peptides, Cyclic, surfactin, chemistry.chemical_compound, biosurfactants, Bacterial Proteins, Species Specificity, RNA, Ribosomal, 16S, halotolerant, Seawater, Amino Acid Sequence, Cloning, Molecular, Peptide sequence, Soil Microbiology, Saline Solution, Hypertonic, Bacillaceae, biology, Strain (chemistry), Sequence Homology, Amino Acid, bacillomycin L, Fatty Acids, Nucleic acid sequence, Lipopeptide, General Medicine, biology.organism_classification, Thailand, lipopeptides, Carbon, Molecular Weight, RNA, Bacterial, plipastatin, chemistry, Biochemistry, Genes, Bacterial, Fermentation, Halotolerance, Food Microbiology, Molecular Medicine, Surfactin, Water Microbiology, Oligopeptides, Sequence Alignment

Abstract

Twenty-three halotolerant and biosurfactant producing strains were collected from salty conditions in central Thailand. One of the strains designated BBK-1 produced the biosurfactants with the highest activity. BBK-1 was isolated from fermented foods and was identified as B. subtilis based on its physiological characteristics and 16S rRNA gene sequence. We show that the strain grows in media containing NaCl up to 16% (w/v) and produces biosurfactants in NaCl up to 8%. We found that B. subtilis BBK-1 produces three kinds of surface-active lipopeptides simultaneously. By their respective molecular weights and amino acid compositions, it is indicated that these lipopeptides are bacillomycin L, plipastatin, and surfactin. In order to analyze the production mechanism of lipopeptides further in the strain, a generally important biosynthetic gene encoding 4'-phosphopantetheinyl transferase was cloned and sequenced. The gene existed in a single copy in the genome and the deduced amino acid sequence was almost identical to that of Lpa-14 from B. subtilis strain RB14, which co-produces iturin A and surfactin.

Published

2002

20. cDNA cloning and characterization of vanadium-dependent bromoperoxidases from the red alga Laurencia nipponica

Author

Kensuke Kaneko, Kenji Washio, Tatsufumi Okino, Fuyuhiko Matsuda, Taiki Umezawa, and Masaaki Morikawa

Subjects

Models, Molecular, DNA, Complementary, Halogenation, Protein Conformation, Molecular Sequence Data, Ether, Tandem mass spectrometry, medicine.disease_cause, Applied Microbiology and Biotechnology, Biochemistry, Laurencia, Analytical Chemistry, law.invention, chemistry.chemical_compound, Biosynthesis, law, medicine, Amino Acid Sequence, Thermolabile, Cloning, Molecular, Molecular Biology, Escherichia coli, biology, Organic Chemistry, Vanadium, General Medicine, biology.organism_classification, Enzyme assay, chemistry, Peroxidases, Recombinant DNA, biology.protein, Biotechnology

Abstract

The marine red alga genus Laurencia is one of the richest producers of unique brominated compounds in the marine environment. The cDNAs for two Laurencia nipponica vanadium-dependent bromoperoxidases (LnVBPO1 and LnVBPO2) were cloned and expressed in Escherichia coli. Enzyme assays of recombinant LnVBPO1 and LnVBPO2 using monochlorodimedone revealed that they were thermolabile but their Km values for Br− were significantly lower than other red algal VBPOs. The bromination reaction was also assessed using laurediol, the predicted natural precursor of the brominated ether laurencin. Laurediol, protected by trimethylsilyl at the enyne, was converted to deacetyllaurencin by the LnVBPOs, which was confirmed by tandem mass spectrometry. Native LnVBPO partially purified from algal bodies was active, suggesting that LnVBPO is functional in vivo. These results contributed to our knowledge of the biosynthesis of Laurencia brominated metabolites.

Published

2014

21. Isolation and characterization of psychrotrophic bacteria from oil-reservoir water and oil sands

Author

Mitsuru Haruki, Shigenori Kanaya, Tomohisa Kato, Masaaki Morikawa, and Tadayuki Imanaka

Subjects

Canada, Shewanella, Catechols, Biology, Naphthalenes, medicine.disease_cause, Applied Microbiology and Biotechnology, Microbiology, Bioremediation, Japan, Arthrobacter, Alkanes, medicine, Soil Pollutants, Food science, Soil Microbiology, Triglycerides, chemistry.chemical_classification, Strain (chemistry), Water Pollution, Genes, rRNA, General Medicine, biology.organism_classification, Silicon Dioxide, Aerobiosis, Cold Temperature, Hydrocarbon, Biodegradation, Environmental, Petroleum, Psychrotrophic bacteria, chemistry, Oil sands, Water Microbiology, Biotechnology, Mesophile

Abstract

Four psychrotrophic strains, which grew at 4 degrees C but not at 37 degrees C, were isolated from Japanese oil-reservoir water (strains SIB1, SIC1, SIS1) and Canadian oil sands (strain CAB1). Strains SIB1, SIS1, and CAB1 had a maximum growth rate at 20 degrees C and grew to the highest cell densities at the cultivation temperature of 0-4 degrees C. Strain SIS1 was capable of growing even at -5 degrees C. The growth profile of strain SIC1 was rather similar to that of a mesophilic bacterium. Strains SIB1, SIC1, and SIS1 were identified as members of the genus Shewanella, and strain CAB1 was a member of the genus Arthrobacter. All these strains exhibited weak degradation ability against catechol, a hydroxylated aromatic hydrocarbon, and tributyrin. These strains are expected to be of potential use in the in situ bioremediation technology of hazardous hydrocarbons and esters under low-temperature conditions.

Published

2001

22. Production and characterization of a biosurfactant from Cyberlindnera samutprakarnensis JP52(T.)

Author

Jiraporn Thaniyavarn, Masaaki Morikawa, Pairoh Pinphanichakarn, Jamroonsri Poomtien, and Sasitorn Jindamorakot

Subjects

Cyberlindnera samutprakarnensis, Fraction (chemistry), Sodium Chloride, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Surface-Active Agents, Palm oil, Molecular Biology, Micelles, Chromatography, Chemistry, business.industry, Organic Chemistry, Temperature, General Medicine, Hydrogen-Ion Concentration, Ph stability, Yeast, Carbon, Biotechnology, Kinetics, Critical micelle concentration, Saccharomycetales, Glycolipids, business

Abstract

Cyberlindnera samutprakarnensis JP52(T), isolated from cosmetic industrial wastes in Thailand, was found to be an efficient biosurfactant-producing yeast when cultured in a medium containing (2% (w/v) glucose and 2% (v/v) palm oil at 30 °C, 200 rpm for 7 d. The crude biosurfactant had the ability to reduce the surface tension from 55.7 to 30.9 mN/m at 25 °C with a critical micelle concentration (CMC) of 0.046%. Physicochemical analysis of the crude biosurfactant revealed that it had wide ranges of optimum pH and pH stability at 6-9 and 3-10 respectively. It was also thermostable and retained 80% activity even after heat treatment, and it tolerated NaCl at 1.0-10%. Furthermore, it effectively emulsified various vegetable oils with an E24 value of over 80%. A partially purified biosurfactant fraction was analyzed for its structure by MALDI-TOF MS and NMR. This revealed that the biosurfactant mainly contained sophorolipids in C18-(MW 574) and C16-diaceltylated (MW 662) forms.

Published

2013

23. An abnormally acidic TATA-binding protein from a hyperthermophilic archaeon

Author

Tadayuki Imanaka, Naeem Rashid, and Masaaki Morikawa

Subjects

DNA, Bacterial, Molecular Sequence Data, Molecular cloning, Homology (biology), Pyrococcus, Genetics, Amino Acid Sequence, Isoelectric Point, Cloning, Molecular, Gene, Repetitive Sequences, Nucleic Acid, Base Sequence, Sequence Homology, Amino Acid, biology, C-terminus, General Medicine, TATA-Box Binding Protein, biology.organism_classification, Archaea, TATA Box, Molecular biology, DNA-Binding Proteins, enzymes and coenzymes (carbohydrates), Open reading frame, Isoelectric point, Genes, Bacterial, biology.protein, TATA-binding protein, Transcription Factors

Abstract

The gene encoding the TATA-binding protein (PkTBP) from a hyperthermophilic archaeon, Pyrococcus sp. KOD1 (Pk), was cloned and sequenced. An open reading frame with homology to the conserved C-terminal core region of eukaryotic TBP was expressed in Escherichia coli. Specific DNA-binding activity of the recombinant PkTBP (190 amino acids, 21.36 kDa) was also demonstrated. Although it was composed of a structurally direct repeat sequence which is similar to eukaryotic TBP, the total net charge of archaeal TBP was amazingly negative (calculated isoelectric point (pI) was 4.66 and experimentally estimated pI was 4.8). A series of five Glu residues was found at the C terminus of archaeal TBP. These data strongly suggest that a positively charged protein is also involved in the transcription initiation event which might stabilize the structure of the genomic DNA under high-growth-temperature conditions.

Published

1995

24. Crystallization and preliminary X-ray analysis of TBP-interacting protein from the hyperthermophilic archaeonThermococcus kodakaraensisstrain KOD1

Author

Shigenori Kanaya, Hiroyoshi Matsumura, Takahiko Yamamoto, Yasushi Kai, Tomoki Matsuda, Nami Sakamoto, Masaaki Morikawa, and Tsuyoshi Inoue

Subjects

biology, Archaeal Proteins, TBP interacting protein, General Medicine, Crystallography, X-Ray, TATA-Box Binding Protein, biology.organism_classification, Thermococcales, law.invention, Thermococcus, Tetragonal crystal system, Crystallography, Structural Biology, law, Escherichia coli, Crystallization, Selenomethionine, X ray analysis, Transcriptional Regulatory Protein, Synchrotrons

Abstract

The 26 kDa TBP (TATA-binding protein) interacting protein from the hyperthermophilic archaeon Thermococcus kodakaraensis KOD1 (Tk-TIP26) is a possible transcriptional regulatory protein in Thermococcales. Here, the crystallization of both the native and selenomethionine-substituted proteins and data collection are described. The native crystals belong to the tetragonal space group P4(1)2(1)2 or P4(3)2(1)2, with unit-cell parameters a = 73.83, c = 86.41 A, and diffract to 2.2 A using synchrotron radiation. MAD data was collected and a Bijvoet difference Patterson map showed strong peaks sufficient to determine the positions of the Se atoms.

Published

2003

25. Influence of Occlusal Vertical Dimension on Muscle Fiber Conduction Velocity and EMG Frequency Components in Human Temporal Muscle

Author

Masaaki Morikawa, Tatsumi Kaneda, Tatsumasa Nabeshima, Mitsuru Miyamoto, Masahiro Tanaka, and Takayoshi Kawazoe

Subjects

Occlusal Splints, Vertical dimension of occlusion, Materials science, Maximum voluntary contraction, Healthy subjects, General Medicine, Anatomy, Muscle fiber conduction velocity, Temporal muscle, Biomedical engineering

Abstract

The influence of occlusal vertical dimension on the muscle fiber conduction velocity (MFCV) and EMG frequency parameters were studied in the human temporal muscle in four healthy subjects (21-29 yrs. old). The occlusal vertical dimension was changed from intercuspal position (ICP) to maximum bite-raising position (22.0mm) by applying six different occlusal splints to the habitual opening-closing movement path. The EMG activities at 10, 30 and 50% maximum voluntary contraction were measured at each vertical dimension. The EMG signals were detected with a surface linear electrode array with 7 contacts placed along the muscle fibers. The MFCV was calculated from the time delay between adjacent EMG signals. The frequency parameters were 10, 25, 50 and 75% cumulative power functions and mean power frequency.The results obtained were as follows:1. The MFCV was increased according to the increase of the contraction level, but decreased accoding to the increase of the occlusal vertical dimension.2. Each frequency parameter was shifted lower according to the increase of the occlusal vertical dimension.3. The significant correlation (p

Published

1994

26. Postural Synergy of Sternocleidomastoid Muscle for Control of Head Position during Ballistic Voluntary Jaw Movements. Part 2. Activity of Anticipatory Postural Adjustment for Head Position during Jaw Opening

Author

Masahiro Tanaka, Takayoshi Kawazoe, Masaaki Morikawa, Takashi Nagasuna, and Shinji Matsumoto

Subjects

medicine.medical_specialty, Physical medicine and rehabilitation, fungi, Head position, medicine, Motor program, Motor time, General Medicine, Anatomy, Psychology, Sternocleidomastoid muscle, Jaw opening

Abstract

Postural adjustments and voluntary movement appear to be parts of thesame motor program. Anticipatory postural movements should result from muscular functionalsynergies selected from a pre-evaluation of the perturbative aspects of the forthcoming movement. The present study was designed to investigate the relationship between anticipatory postural activities of the sternocleidomastoid muscle (SCM) and peripheral processes associated with execution of the voluntary movement. When subjects executed wide jaw opening as rapidly as possible at the acoustic signal, the following results were obtained:1. Relations between firing latencies of the SCM and reaction time (RT) were highly signifi-cant. However, firing latencies of the SCM had no relation with motor time (MT).2. Anticipatory postural period of SCM's activities which preceded the burst of Da had no correlation with opening distance, opening velocity, and MT. These results suggested that anticipatory postural activities of SCM were not associated with peripheral processes of voluntary rapid jaw opening.

Published

1994

27. Application of a two-liquid system to sitting-drop vapour-diffusion protein crystallization

Author

Shigenori Kanaya, Takatomo Sasaki, Masashi Yoshimura, Hiroaki Adachi, Yusuke Mori, Masaaki Morikawa, and Kazufumi Takano

Subjects

Materials science, Chromatography, Drop (liquid), Proteins, Liquid system, General Medicine, law.invention, Diffusion, Chemical engineering, Structural Biology, law, Reagent, Solvents, Crystallization, Protein crystallization

Abstract

A new method of protein crystallization, the floating-drop vapour-diffusion technique, has been developed. The method combines the traditional sitting-drop vapour-diffusion technique and a novel two-liquid system. A crystallization drop composed of a mixture of sample and reagent floats on an insoluble and very dense liquid. Protein crystals are grown by vapour diffusion at the interface of the two liquids. The method makes it possible to remove the crystals easily without causing mechanical damage. This approach also significantly reduces the time and cost compared with the hanging-drop technique, which is presently the most popular method for protein crystallization.

Published

2002

28. A truncated form of SpoT, including the ACT domain, inhibits the production of cyclic lipopeptide arthrofactin, and is associated with moderate elevation of guanosine 3',5'-bispyrophosphate level in Pseudomonas sp. MIS38

Author

Siew Ping Lim, Kenji Washio, Niran Roongsawang, and Masaaki Morikawa

Subjects

Transposable element, Transcription, Genetic, Mutant, Molecular Sequence Data, Guanosine, Guanosine Tetraphosphate, Applied Microbiology and Biotechnology, Biochemistry, Peptides, Cyclic, Analytical Chemistry, Microbiology, chemistry.chemical_compound, Lipopeptides, Transformation, Genetic, Pseudomonas, Amino Acid Sequence, RNA, Messenger, Pyrophosphatases, Molecular Biology, Sequence Deletion, Phenocopy, biology, Base Sequence, Organic Chemistry, Biofilm, General Medicine, biology.organism_classification, Null allele, Molecular biology, Protein Structure, Tertiary, chemistry, Genetic Loci, DNA Transposable Elements, bacteria, ACT domain, Biotechnology

Abstract

Arthrofactin is a biosurfactant produced by Pseudomonas sp. MIS38. We have reported that transposon insertion into spoT (spoT::Tn5) causes moderate accumulation of guanosine 3′,5′-bispyrophosphate (ppGpp) and abrogates arthrofactin production. To analyze the linkage of SpoT function and ablation of arthrofactin production, we examined the spoT::Tn5 mutation. The results showed that spoT::Tn5 is not a null mutation, but encodes separate segments of SpoT. Deletion of the 3′ region of spoT increased the level of arthrofactin production, suggesting that the C-terminal region of SpoT plays a suppressive role. We evaluated the expression of a distinct segment of SpoT. Forced expression of the C-terminal region that contains the ACT domain resulted in the accumulation of ppGpp and abrogated arthrofactin production. Expression of the C-terminal segment also reduced MIS38 swarming and resulted in extensive biofilm formation, which constitutes the phenocopy of the spoT::Tn5 mutant.

Published

2011

29. Postural Synergy of Sternocleidomastoid Muscle for Control of Head Position during Ballistic Voluntary Jaw Movements

Author

Takashi Nagasuna, Takayoshi Kawazoe, Masahiro Tanaka, Masaaki Morikawa, and Shinji Matsumoto

Subjects

business.industry, Head position, Medicine, General Medicine, Anatomy, business, Sternocleidomastoid muscle

Published

1993

30. Left-Right and Anteroposterior Occlusal Force Balances with Increase of Clenching Level in the Intercuspal Position

Author

Takayoshi Kawazoe, Masaaki Morikawa, Takeki Nakanishi, Shinji Matsumoto, Masahiro Yanagida, and Masahiro Tanaka

Subjects

Chemistry, business.industry, Craniomandibular Disorder, Maximum voluntary contraction, Dentistry, General Medicine, business, Occlusal Adjustment

Abstract

It is known that occlusal contacts in the intercuspal position (ICP) change at different of clenching levels. Despite this fact, an occlusal adjustment generally is carried out at only one clenching level.We investigated the variation of left-right (L/R) and anteroposterior (A/P) occlusal force balances in ICP with an increase of clenching level using a T-Scan system. In the first experiment, six normal subjects were asked to clench on the T-Scan sensor at 20, 40 and 60% of maximum voluntary contraction level. Statistics, which showed total force, L/R and A/P occlusal force balances, were calculated from these T-Scan data recorded and used to evaluate the occlusal force balances in ICP. Furthermore, we compared variation of L/R and A/P occlusal force balances with an increase of the total force between twenty-six normal subjects and nine patients with craniomandibular disorders (CMD).As a result, these occlusal force balances of the normal subjects showed significantly less variation than patients with CMD.We found that occlusal force balances in ICP must be evaluated at various clenching levels in order to discover variation of occlusal force balances.

Published

1993

31. Identification and characterization of the genes responsible for the production of the cyclic lipopeptide arthrofactin by Pseudomonas sp. MIS38

Author

Niran Roongsawang, Masaaki Morikawa, Siew Ping Lim, and Kenji Washio

Subjects

Operon, Mutant, Guanosine Tetraphosphate, Biology, Cell morphology, Applied Microbiology and Biotechnology, Biochemistry, Peptides, Cyclic, Analytical Chemistry, chemistry.chemical_compound, Lipopeptides, Nonribosomal peptide, Pseudomonas, Hydrolase, Molecular Biology, chemistry.chemical_classification, Organic Chemistry, Lipopeptide, Epistasis, Genetic, General Medicine, biology.organism_classification, chemistry, Genes, Bacterial, Mutagenesis, Pseudomonadales, Mutation, DNA Transposable Elements, bacteria, Biotechnology

Abstract

Pseudomonas sp. MIS38 produces an effective biosurfactant named arthrofactin, which is a cyclic lipopeptide synthesized by a mega complex composed of three nonribosomal peptide synthetases. In order to gain insight into the control mechanism of arthrofactin production, a Tn5 mutant library was constructed and screened for arthrofactin-deficient mutants. Along with a number of mutations that occurred in the arthrofactin synthetase operon, three other mutants harbored distinct Tn5 insertions in the genes encoding SyrF-like protein (arfF), heat shock protein (htpG), and (p)ppGpp synthetase/hydrolase (spoT). Epistasis analyses revealed that spoT functions early in the arthrofactin production pathway. We also found that spoT affects MIS38 swarming, biofilm formation, and the cell morphology.

Published

2010

32. Dioxygen activation responsible for oxidation of aliphatic and aromatic hydrocarbon compounds: current state and variants

Author

Masaaki Morikawa

Subjects

Alkane, chemistry.chemical_classification, Bacteria, Substrate (chemistry), General Medicine, Applied Microbiology and Biotechnology, Archaea, Models, Biological, Carbon, Hydrocarbons, Catalysis, Hydroxylation, Oxygen, chemistry.chemical_compound, Hydrocarbon, chemistry, Models, Chemical, Organic chemistry, Aliphatic compound, Aromatic hydrocarbon, Energy Metabolism, Oxidation-Reduction, Biotechnology, Naphthalene

Abstract

The most significant aspect in microbial metabolisms, especially those of bacteria and archaea, is their marvelously wide acceptability of substrate electron donors and acceptors. This feature makes them to be attractive catalysts for environmental biotechnology in terms of degradation of harmful recalcitrant compounds, including hydrocarbons. Transformation of highly reduced and inert hydrocarbon compounds is with no doubt a challenging biochemical reaction for a single enzyme. However, several multi-component enzyme systems enable microorganisms to utilize hydrocarbons as carbon and energy (electron) sources. Initial biological attack to hydrocarbons is, in most cases, the hydroxylation that requires molecular dioxygen as a co-substrate. Dioxygen also contributes to the ring cleavage reaction of homo- and hetero-cyclic aromatic hydrocarbons. Although the molecular dioxygen is omnipresent and highly soluble in water, activation and splitting this triplet ground-state molecule to wed with difficult hydrocarbons need special devices. Non-heme iron, heme iron, or flavin nucleotide was designated as a major hidden dagger for this purpose.

Published

2010

33. Gene cloning and characterization of an aldehyde dehydrogenase from long-chain alkane-degrading Geobacillus thermoleovorans B23

Author

Tomohisa Kato, Shigenori Kanaya, Masaaki Morikawa, and Asuka Miyanaga

Subjects

Hot Temperature, Transcription, Genetic, Cations, Divalent, Aldehyde dehydrogenase, medicine.disease_cause, Microbiology, Cofactor, Substrate Specificity, Bacterial Proteins, Alkanes, medicine, Escherichia coli, Cloning, Molecular, chemistry.chemical_classification, biology, Thermophile, Geobacillus, General Medicine, Aldehyde Dehydrogenase, Hydrogen-Ion Concentration, Enzyme assay, Recombinant Proteins, Enzyme, Biochemistry, chemistry, Metals, biology.protein, Molecular Medicine, Long-chain-aldehyde dehydrogenase, NAD+ kinase

Abstract

Geobacillus thermoleovorans B23 is capable of degrading long-chain alkanes at 70 degrees C. Bt-aldh, an aldehyde dehydrogenase gene in B23, was located in the upstream region of p21 whose expression level was dramatically increased when alkane degradation was started (Kato et al. 2009, BMC Microbiol 9:60). Like p21, transcription level of Bt-aldh was also increased upon alkane degradation. Bt-Aldh (497 aa, MW = 53,886) was overproduced in Escherichia coli, purified, and characterized biochemically. Bt-Aldh acted as an octamer, required NAD(+) as a coenzyme, and showed high activity against aliphatic long-chain aldehydes such as tetradecanal. The optimum condition for activity was 50-55 degrees C and pH 10.0. The activity was elevated to two- to threefold in the presence of 2 mM Ba(2+), Ca(2+), or Sr(2+), while Mg(2+) and Zn(2+) inhibited the enzyme activity. Bt-Aldh represents thermophilic aldehyde dehydrogenases responsible for degradation of long-chain alkanes.

Published

2009

34. Flexible exportation mechanisms of arthrofactin in Pseudomonas sp. MIS38

Author

Niran Roongsawang, Siew Ping Lim, Kenji Washio, and Masaaki Morikawa

Subjects

Operon, Mutant, ATP-binding cassette transporter, Applied Microbiology and Biotechnology, Peptides, Cyclic, Microbiology, Gene Knockout Techniques, Lipopeptides, Pseudomonas, Cloning, Molecular, Peptide Synthases, biology, Reverse Transcriptase Polymerase Chain Reaction, General Medicine, Periplasmic space, biology.organism_classification, Genes, Bacterial, Multigene Family, Pseudomonadales, ATP-Binding Cassette Transporters, Efflux, Periplasmic Proteins, Vanadates, Biotechnology, Pseudomonadaceae

Abstract

Aims: To obtain further insights into transportation mechanisms of a most effective biosurfactant, arthrofactin in Pseudomonas sp. MIS38. Methods and Results: A cluster genes arfA/B/C encodes an arthrofactin synthetase complex (ArfA/B/C). Downstream of the arfA/B/C lie genes encoding a putative periplasmic protein (ArfD, 362 aa) and a putative ATP-binding cassette transporter (ArfE, 651 aa), namely arfD and arfE, respectively. The arfA/B/C, arfD, and arfE form an operon suggesting their functional connection. Gene knockout mutants ArfD:Km, ArfE:Km, ArfD:Tc/ArfE:Km, and gene overexpression strains MIS38(pME6032_arfD/E) and ArfE:Km(pME6032_arfD/E) were prepared and analysed for arthrofactin production profiles. It was found that the production levels of arthrofactin were temporally reduced in the mutants or increased in the gene overexpression strains, but they eventually became similar level to that of MIS38. Addition of ABC transporter inhibitors, glibenclamide and sodium ortho-vanadate dramatically reduced the production levels of arthrofactin. This excludes a possibility that arthrofactin is exported by diffusion with the aid of its own high surfactant activity. Conclusions: ArfD/E is not an exclusive but a primary exporter of arthrofactin during early growth stage. Reduction in the arthrofactin productivity of arfD and arfE knockout mutants was eventually rescued by another ABC transporter system. Effects of arfD and arfE overexpression were evident only for 1-day cultivation. Multiple ATP dependent active transporter systems are responsible for the production of arthrofactin. Significance and Impact of the Study: Pseudomonas bacteria are characterized to be endued with multiple exporter and efflux systems for secondary metabolites including antibiotics, plant toxins, and biosurfactants. The present work demonstrates exceptionally flexible and highly controlled transportation mechanisms of a most effective lipopeptide biosurfactant, arthrofactin in Pseudomonas sp. MIS38. Because lipopeptide biosurfactants are known to enhance efficacy of bioactive compounds and arfA/B/C/D/E orthologous genes are also found in plant pathogenic P. fluorescens and P. syringae strains, the knowledge would also contribute to develop a technology controlling plant diseases.

Published

2009

35. Production of sophorolipid biosurfactant by Pichia anomala

Author

Keji Washio, Suthep Thaniyavarn, Masaaki Morikawa, Polakit Sangvanich, Niran Roongsawang, Tanusta Chianguthai, and Jiraporn Thaniyavarn

Subjects

food.ingredient, Pichia anomala, Nitrogen, chemistry.chemical_element, Applied Microbiology and Biotechnology, Biochemistry, Soybean oil, Mass Spectrometry, Pichia, Analytical Chemistry, Surface-Active Agents, food, Food science, Molecular Biology, Fermentation in food processing, Molecular mass, biology, Sophorolipid, Organic Chemistry, Temperature, food and beverages, General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Lipids, Yeast, Soybean Oil, chemistry, Carbon, Biotechnology

Abstract

Biosurfactant production by Pichia anomala PY1, a thermotorelant strain isolated from fermented food, was examined as grown in media containing various carbon and nitrogen sources. The optimal conditions for biosurfactant production included 4% soybean oil as carbon source at pH 5.5 at 30 degrees C for 7 d. Under these conditions, the surface tension of the medium decreased to 28 mN/m with oil displacement measured at 69.43 cm(2). Comparative studies of biosurfactant production in media containing glucose or soybean oil were performed. The biosurfactants obtained were isolated and purified by chromatographic methods. The molecular weights of samples were further investigated by mass spectrometry. In medium containing glucose, biosurfactants of molecular weights of 675, 691, and 707 were obtained, while those isolated from medium containing soybean oil were of molecular weights of 658, 675, and 691. These results reveal that sophorolipid compounds containing fatty acids of C20 and C18:1 were produced from both media.

Published

2008

36. Identification of alkane hydroxylase genes in Rhodococcus sp. strain TMP2 that degrades a branched alkane

Author

Kenji Washio, Masaaki Morikawa, and Daisuke Takei

Subjects

Molecular Sequence Data, AlkB, Bioengineering, Applied Microbiology and Biotechnology, chemistry.chemical_compound, Alkanes, Rhodococcus, Amino Acid Sequence, RNA, Messenger, Phylogeny, Alkane, chemistry.chemical_classification, Strain (chemistry), biology, Pristane, General Medicine, Gene Expression Regulation, Bacterial, Biodegradation, biology.organism_classification, Enzyme, chemistry, Biochemistry, Genes, Bacterial, biology.protein, Microscopy, Electron, Scanning, Cytochrome P-450 CYP4A, Bacteria, Biotechnology

Abstract

Rhodococcus sp. TMP2 is an alkane-degrading strain that can grow with a branched alkane as a sole carbon source. TMP2 degrades considerable amounts of pristane at 20 degrees C but not at 30 degrees C. In order to gain insights into microbial alkane degradation, we characterized one of the key enzymes for alkane degradation. TMP2 contains at least five genes for membrane-bound, non-heme iron, alkane hydroxylase, known as AlkB (alkB1-5). Phylogenetical analysis using bacterial alkB genes indicates that TMP2 is a close relative of the alkane-degrading bacteria, such as Rhodococcus erythropolis NRRL B-16531 and Q15. RT-PCR analysis showed that expressions of the genes for AlkB1 and AlkB2 were apparently induced by the addition of pristane at a low temperature. The results suggest that TMP2 recruits certain alkane hydroxylase systems to utilize a branched alkane under low temperature conditions.

Published

2008

37. Gene cloning, overproduction, and characterization of thermolabile alkaline phosphatase from a psychrotrophic bacterium

Author

Shigenori Kanaya, Yoichi Mizutani, Tadao Tsuji, Naoto Ohtani, Kazufumi Takano, Mitsuru Haruki, Yutaka Suzuki, and Masaaki Morikawa

Subjects

Shewanella, Molecular Sequence Data, Molecular cloning, Biology, medicine.disease_cause, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Enzyme Stability, medicine, Escherichia coli, Amino Acid Sequence, Thermolabile, Cloning, Molecular, Molecular Biology, Peptide sequence, chemistry.chemical_classification, Organisms, Genetically Modified, Sequence Homology, Amino Acid, Organic Chemistry, Temperature, General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Alkaline Phosphatase, Amino acid, Enzyme, chemistry, Metals, Alkaline phosphatase, Bacteria, Biotechnology

Abstract

The gene encoding alkaline phosphatase from the psychrotrophic bacterium Shewanella sp. SIB1 was cloned, sequenced, and overexpressed in Escherichia coli. The recombinant protein was purified and its enzymatic properties were compared with those of E. coli alkaline phosphatase (APase), which shows an amino acid sequence identity of 37%. The optimum temperature of SIB1 APase was 50 degrees C, lower than that of E. coli APase by 30 degrees C. The specific activity of SIB1 APase at 50 degrees C was 3.1 fold higher than that of E. coli APase at 80 degrees C. SIB1 APase lost activity with a half-life of 3.9 min at 70 degrees C, whereas E. coli APase lost activity with a half-life of6 h even at 80 degrees C. Thus SIB1 APase is well adapted to low temperatures. Comparison of the amino acid sequences of SIB1 and E. coli APases suggests that decreases in electrostatic interactions and number of disulfide bonds are responsible for the cold-adaptation of SIB1 APase.

Published

2005

38. Gene cloning and in vivo characterization of a dibenzothiophene dioxygenase from Xanthobacter polyaromaticivorans

Author

Shigenori Kanaya, Mitsuru Haruki, Masaaki Morikawa, Tadayuki Imanaka, Shin-ichi Hirano, and Kazufumi Takano

Subjects

Oxygenase, Stereochemistry, Cloning, Organism, Molecular Sequence Data, Thiophenes, Biology, Applied Microbiology and Biotechnology, Hydrocarbons, Aromatic, Dioxygenases, chemistry.chemical_compound, Dioxygenase, Sequence Analysis, Protein, Gene Order, Xanthobacter, Amino Acid Sequence, Cloning, Molecular, Peptide sequence, Phylogeny, chemistry.chemical_classification, Anthracenes, Anthracene, Sequence Homology, Amino Acid, General Medicine, Sequence Analysis, DNA, Phenanthrene, Amino acid, Mutagenesis, Insertional, Protein Subunits, chemistry, Biochemistry, Dibenzothiophene, Gene Deletion, Biotechnology

Abstract

Xanthobacter polyaromaticivorans sp. nov. 127W is a bacterial strain that is capable of degrading a wide range of cyclic aromatic compounds such as dibenzothiophene, biphenyl, naphthalene, anthracene, and phenanthrene even under extremely low oxygen [dissolved oxygen (DO)or = 0.2 ppm] conditions (Hirano et al., Biosci Biotechnol Biochem 68:557-564, 2004). A major protein fraction carrying dibenzothiophene degradation activity was purified. Based on its partial amino acid sequences, dbdCa gene encoding alpha subunit terminal oxygenase (DbdCa) and its flanking region were cloned and sequenced. A phylogenetic analysis based on the amino acid sequence demonstrates that DbdCa is a member of a terminal oxygenase component of group IV ring-hydroxylating dioxygenases for biphenyls and monocyclic aromatic hydrocarbons, rather than group III dioxygenases for polycyclic aromatic hydrocarbons. Gene disruption in dbdCa abolished almost of the degradation activity against biphenyl, dibenzothiophene, and anthracene. The gene disruption also impaired degradation activity of the strain under extremely low oxygen conditions (DOor = 0.2 ppm). These results indicate that Dbd from 127W represents a group IV dioxygenase that is functional even under extremely low oxygen conditions.

Published

2005

39. Gene cloning and biochemical characterizations of thermostable ribonuclease HIII from Bacillus stearothermophilus

Author

Kazufumi Takano, Masaaki Morikawa, Hyongi Chon, Rikita Nakano, Naoto Ohtani, Mitsuru Haruki, and Shigenori Kanaya

Subjects

Molecular Sequence Data, Biology, Molecular cloning, medicine.disease_cause, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Substrate Specificity, Geobacillus stearothermophilus, Ribonucleases, Bacterial Proteins, Enzyme Stability, medicine, Escherichia coli, Ribonuclease, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Peptide sequence, chemistry.chemical_classification, Bacillaceae, Thermophile, Organic Chemistry, General Medicine, biology.organism_classification, Bacillales, Recombinant Proteins, Enzyme, chemistry, Mutation, biology.protein, Biotechnology

Abstract

The gene encoding RNase HIII from the thermophilic bacterium Bacillus stearothermophilus was cloned and overexpressed in Escherichia coli, and the recombinant protein (Bst-RNase HIII) was purified and biochemically characterized. Bst-RNase HIII is a monomeric protein with 310 amino acid residues, and shows an amino acid sequence identity of 47.1% with B. subtilis RNase HIII (Bsu-RNase HIII). The enzymatic properties of Bst-RNase HIII, such as pH optimum, metal ion requirement, and cleavage mode of the substrates, were similar to those of Bsu-RNase HIII. However, Bst-RNase HIII was more stable than Bsu-RNase HIII, and the temperature (T(1/2)) at which the enzyme loses half of its activity upon incubation for 10 min was 55 degrees C for Bst-RNase HIII and 35 degrees C for Bsu-RNase HIII. The optimum temperature for Bst-RNase HIII activity was also shifted upward by roughly 20 degrees C as compared to that of Bsu-RNase HIII. The availability of such a thermostable enzyme will facilitate structural studies of RNase HIII.

Published

2004

40. Mutational and structural-based analyses of the osmolyte effect on protein stability

Author

Kazufumi Takano, Shigenori Kanaya, Masaaki Morikawa, and Minoru Saito

Subjects

Models, Molecular, Protein Denaturation, Sarcosine, RNase P, Protein Conformation, Biochemistry, Accessible surface area, Molecular dynamics, chemistry.chemical_compound, symbols.namesake, Ribonucleases, Peptide bond, Molecular Biology, chemistry.chemical_classification, Chemistry, Circular Dichroism, fungi, Osmolar Concentration, General Medicine, Amino acid, Gibbs free energy, Isoenzymes, Crystallography, Osmolyte, Mutation, symbols, Thermodynamics

Abstract

It is known that several naturally occurring substances known as osmolytes increase the conformational stability of proteins. Bolen and co-worker proposed the osmophobic theory, which asserts the osmolyte effect occurs because of an unfavorable interaction of osmolytes mainly with the protein backbone, based on the results on the transfer Gibbs energy of amino acids (Deltag) [Bolen and Baskakov (2001) J. Mol. Biol. 310, 955-963]. In this paper, we report the effect of sarcosine on the conformational stability (DeltaG) of RNase Sa (96 residues and one disulfide bond) and four mutant proteins. The thermal denaturation curves for RNase Sa in sarcosine fitted a two-state model on nonlinear least-squares analysis. All the RNase Sa proteins were stabilized by sarcosine. For example, the increase in stability of the wild-type protein in 4 M sarcosine due to the osmolyte effect (Delta(o)DeltaG) is 3.2 kcal/mol. Mutational analysis of the osmolyte effect indicated that the changed Delta(o)DeltaG values upon mutation (Delta(m)Delta(o)DeltaG), as estimated from the Deltag values, are similar to the experimental values. Structural-based analysis of the osmolyte effect was also performed using model denatured structures: (a) a fully extended model (single chain) with no disulfide bond, (b) two-part, unfolded models (two chains) with a disulfide bond constructed through molecular dynamic (MD) simulation, and (c) a two-part, folded model (two chains). The two-part, unfolded models were expected to be more suitable as denatured structures. The Delta(o)DeltaG values calculated using the two-part, unfolded models were more consistent with experimental values than those calculated using the fully extended and two-part, folded models. This suggests that MD simulation is useful for testing denatured structures. These results indicate that the osmophobic theory can explain the osmolyte effect on protein stability.

Published

2004

41. Isolation and characterization of Xanthobacter polyaromaticivorans sp. nov. 127W that degrades polycyclic and heterocyclic aromatic compounds under extremely low oxygen conditions

Author

Tadayuki Imanaka, Shigenori Kanaya, Mitsuru Haruki, Fumiya Kitauchi, Masaaki Morikawa, and Shin-ichi Hirano

Subjects

Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, chemistry.chemical_compound, Heterocyclic Compounds, RNA, Ribosomal, 16S, Xanthobacter, Organic chemistry, Polycyclic Aromatic Hydrocarbons, Molecular Biology, Phylogeny, Naphthalene, Anthracene, biology, Organic Chemistry, General Medicine, Sequence Analysis, DNA, Biodegradation, biology.organism_classification, Anoxic waters, Pseudomonas stutzeri, Oxygen, Biodegradation, Environmental, Petroleum, Sodium Bicarbonate, chemistry, Dibenzothiophene, Microscopy, Electron, Scanning, Limiting oxygen concentration, Biotechnology

Abstract

Two bacterial strains, 127W and T102, were isolated from anoxic crude oil tank sludge as effective degraders of dibenzothiophene (DBT), a model sulfur containing heterocyclic aromatic compound in crude oil. Strain 127W was more tolerant to oxygen limitation than T102 and was capable of degrading two- and three-ring polycyclic and heterocyclic aromatic compounds under both aerobic and low oxygen conditions. Strain 127W degraded 0.082, 0.055, and 0.064 mM of DBT, naphthalene, and anthracene, respectively, in one week with dissolved oxygen < or =0.2ppm (0.006 mM). Degradation by 127W cell-free extracts for DBT was increased by addition of sodium hydrogencarbonate under this oxygen concentration. Phylogenetic analysis of the 16S rRNA gene sequence and physiological characteristics indicate that the strains 127W and T102 belong to new species of the genus Xanthobacter and Pseudomonas stutzeri, respectively. We propose X. polyaromaticivorans sp. nov. 127W.

Published

2004

42. Isolation and characterization of Rhodococcus sp. strains TMP2 and T12 that degrade 2,6,10,14-tetramethylpentadecane (pristane) at moderately low temperatures

Author

Shigenori Kanaya, Kazufumi Takano, Namio Kunihiro, Masaaki Morikawa, and Mitsuru Haruki

Subjects

Bioengineering, Applied Microbiology and Biotechnology, Microbiology, chemistry.chemical_compound, Species Specificity, RNA, Ribosomal, 16S, Rhodococcus, biology, Strain (chemistry), Terpenes, Pristane, Temperature, General Medicine, Biodegradation, Ribosomal RNA, 16S ribosomal RNA, biology.organism_classification, Adaptation, Physiological, RNA, Bacterial, Biodegradation, Environmental, Biochemistry, chemistry, Degradation (geology), Bacteria, Biotechnology

Abstract

Branched alkanes including 2,6,10,14-tetramethylpentadecane (pristane) are more resistant to biological degradation than straight-chain alkanes especially under low-temperature conditions, such as 10 degrees C. Two bacterial strains, TMP2 and T12, that are capable of degrading pristane at 10 degrees C were isolated and characterized. Both strains grew optimally at 30 degrees C and were identified as Rhodococcus sp. based on the 16S rRNA gene sequences. Strain T12 degraded comparable amounts of pristane in a range of temperatures from 10 to 30 degrees C and strain TMP2 degraded pristane similarly at 10 and 20 degrees C but did not degrade it at 30 degrees C. These data suggest that the strains have adapted their pristane degradation system to moderately low-temperature conditions.

Published

2004

43. Cloning and characterization of the gene cluster encoding arthrofactin synthetase from Pseudomonas sp. MIS38

Author

Masaaki Morikawa, Mitsuru Haruki, Niran Roongsawang, Tadayuki Imanaka, Ken ichi Hase, and Shigenori Kanaya

Subjects

Clinical Biochemistry, Molecular Sequence Data, Biology, Biochemistry, Peptides, Cyclic, Catalysis, Peptide Synthases, Lipopeptides, Surface-Active Agents, Thioesterase, Nonribosomal peptide, Cell Movement, Pseudomonas, Drug Discovery, Gene cluster, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Gene, Adenylylation, Peptide sequence, Pharmacology, Genetics, Cloning, chemistry.chemical_classification, General Medicine, Protein Structure, Tertiary, Gene Components, chemistry, Biofilms, Multigene Family, Molecular Medicine

Abstract

Arthrofactin is a potent cyclic lipopeptide-type biosurfactant produced by Pseudomonas sp. MIS38. In this work, an arthrofactin synthetase gene cluster (arf) spanning 38.7 kb was cloned and characterized. Three genes termed arfA, arfB, and arfC encode ArfA, ArfB, and ArfC, containing two, four, and five functional modules, respectively. Each module bears condensation, adenylation, and thiolation domains, like other nonribosomal peptide synthetases. However, unlike most of them, none of the 11 modules possess the epimerization domain responsible for the conversion of amino acid residues from L to D form. Possible L- and D-Leu adenylation domains specifically recognized only L-Leu. Moreover, two thioesterase domains are tandemly located at the C-terminal end of ArfC. These results suggest that ArfA, ArfB, and ArfC assemble to form a unique structure. Gene disruption of arfB impaired arthrofactin production, reduced swarming activity, and enhanced biofilm formation.

Published

2003

44. Production and characterization of biosurfactants from Bacillus licheniformis F2.2

Author

Shigenori Kanaya, Takayuki Kameyama, Tadayuki Imanaka, Niran Roongsawang, Masaaki Morikawa, Mitsuru Haruki, and Jiraporn Thaniyavarn

Subjects

Lipoproteins, Bacillus, Applied Microbiology and Biotechnology, Biochemistry, Peptides, Cyclic, Mass Spectrometry, Analytical Chemistry, chemistry.chemical_compound, Lipopeptides, Surface-Active Agents, Spectroscopy, Fourier Transform Infrared, Bacillus licheniformis, Food science, Molecular Biology, Bacillaceae, biology, Molecular mass, Strain (chemistry), Organic Chemistry, Fatty Acids, Lipopeptide, General Medicine, biology.organism_classification, Bacillales, chemistry, Fermentation, Food Microbiology, Surfactin, Oligopeptides, Biotechnology

Abstract

A biosurfactant-producing strain, Bacillus licheniformis F2.2, was isolated from a fermented food in Thailand. The strain was capable of producing a new biosurfactant, BL1193, as well as two kinds of popular lipopeptide biosurfactants, plipastatin and surfactin. Mass spectrometry and FT-IR analysis indicated that BL1193 had a molecular mass of 1,193 Da with no peptide portion in the molecule. While plipastatin and surfactin were abundantly produced in a nutrient YPD medium, BL1193 was produced only in a synthetic DF medium containing no amino acids. According to an oil displacement activity test, the specific activity of BL1193 (6.53 kBS units/mg) is equivalent to that of surfactin (5.78-6.83 kBS units/mg).

Published

2003

45. Crystallization and preliminary X-ray study of Pk--REC from a hyperthermophilic archaeon, Pyrococcus kodakaraensis KOD1

Author

Noriyuki Ishii, Masaaki Morikawa, Naeem Rashid, Tadayuki Imanaka, and Kazuaki Harata

Subjects

Hot Temperature, Pyrococcus, Archaeal Proteins, medicine.disease_cause, Crystallography, X-Ray, DNA-binding protein, law.invention, Polyethylene Glycols, chemistry.chemical_compound, Structural Biology, law, PEG ratio, medicine, Escherichia coli, Molecule, Crystallization, Cloning, Molecular, technology, industry, and agriculture, General Medicine, Hydrogen-Ion Concentration, Recombinant Proteins, Crystallography, chemistry, Orthorhombic crystal system, DNA, Recombination

Abstract

Pk-REC is a protein which binds to DNA and catalyzes the central step of recombination and repair. The protein was crystallized using the hanging-drop vapour-diffusion method with PEG as a precipitant. Two orthorhombic crystal forms I and II with the same space group P2(1)2(1)2(1) were obtained at pH 8.0 using PEG 3000 and PEG 550 monomethylether, respectively. The unit-cell parameters were a = 151, b = 174, c = 241 A for form I and a = 151, b = 176, c = 300 A for form II, indicating that the asymmetric unit contains more than 20 molecules.

Published

2000

46. Future of the Peripheral Products of High Performance Paper

Author

Masaaki Morikawa

Subjects

General Medicine

Published

2013

47. Construction of a new host-vector system in Arthrobacter sp. and cloning of the lipase gene

Author

H. Daido, Masaaki Morikawa, Tadayuki Imanaka, and S. Pongpobpibool

Subjects

DNA Replication, Genetic Vectors, Kanamycin Resistance, Molecular Sequence Data, Gene Expression, Molecular cloning, Applied Microbiology and Biotechnology, Peptides, Cyclic, Lipopeptides, Surface-Active Agents, Transformation, Genetic, Shuttle vector, Arthrobacter, medicine, Escherichia coli, Amino Acid Sequence, Lipase, Cloning, Molecular, biology, Strain (chemistry), Electroporation, Kanamycin, General Medicine, biology.organism_classification, Molecular biology, Transformation (genetics), Genes, Bacterial, biology.protein, medicine.drug, Biotechnology, Plasmids

Abstract

Arthrobacter sp. strain MIS38 was transformed with a shuttle vector containing the kanamycin resistant gene kan (derived from Tn5) by an electroporation method. This shuttle vector is from Brevibacterium lactofermentum and Escherichia coli, pULRS8. The following optimal condition of electroporation was determined. A square wave pulse of 1 kV/cm electric field strength for 0.5 ms duration yielded 3 x 10(5) transformants/micrograms plasmid DNA. The number of transformants increased with the amount of DNA over the range 0.01-5 micrograms. This host-vector system was then used successfully to clone and express a lipase gene from Arthrobacter sp. strain MIS38 into both Arthrobacter sp. MIS38 and E. coli JM109.

Published

1994

48. The role of urease activity on biofilm and urolith formation by Staphylococcus sp. T-02 that was isolated from a toilet bowl

Author

Yoshihiko Hirata, D. Matsui, K. Oki, Masaaki Morikawa, and Kenji Washio

Subjects

Toilet, Urease, biology, Chemistry, Staphylococcus sp, Biofilm, biology.protein, Bioengineering, General Medicine, Applied Microbiology and Biotechnology, Biotechnology, Microbiology

Published

2010

49. Interaction of TIP26 from a hyperthermophilic archaeon with TFB/TBP/DNA ternary complex

Author

Makoto Fujikawa, Xiao-Feng Tang, Masaaki Morikawa, Tadayuki Imanaka, Shigenori Kanaya, Mitsuru Haruki, Tomoki Matsuda, and Satoshi Ezaki

Subjects

Stereochemistry, Macromolecular Substances, TATA-DNA, Archaeal Proteins, genetic processes, Molecular Sequence Data, TATA-binding protein (TBP), information science, macromolecular substances, Biology, gel mobility shift assay, Microbiology, Genes, Archaeal, chemistry.chemical_compound, transcription factor B (TFB), Electrophoretic mobility shift assay, Amino Acid Sequence, Cloning, Molecular, Peptide sequence, Ternary complex, chemistry.chemical_classification, Sequence Homology, Amino Acid, TATA-Box Binding Protein, Temperature, Nuclear Proteins, hyperthermophilic archaeon, General Medicine, biology.organism_classification, Recombinant Proteins, Amino acid, DNA-Binding Proteins, Thermococcus, enzymes and coenzymes (carbohydrates), DNA, Archaeal, chemistry, Biochemistry, TBP-interacting protein (TIP), health occupations, Transcription Factor TFIIB, Molecular Medicine, Transcription factor II B, DNA, Transcription Factors

Abstract

Interactions of TBP-interacting protein (TIP26), TBP, and TFB from a hyperthermophilic archaeon Thermococcus kodakaraensis KOD1 with TATA-DNA were examined by electrophoretic mobility shift assay. Tk-TFB formed a ternary complex with Tk-TBP and TATA-DNA. Tk-TIP26 did not inhibit the formation of this ternary complex, but interacted with it to form a TIP26/TFB/TBP/DNA quaternary complex. This interaction is rather weak, and a large excess of Tk-TIP26 over Tk-TBP is required to fully convert the TFB/TBP/DNA ternary complex to the quaternary complex. However, determination of the concentration of Tk-TIP26 and Tk-TBP in KOD1 cells by Western blotting analysis indicated that the concentration of Tk-TIP26 is approximately ten times that of Tk-TBP, suggesting that the quaternary complex might also form in vivo.

Published

2001

50. Characterization of ribonuclease HII from Escherichia coli overproduced in a soluble form

Author

Shigenori Kanaya, Ayumu Muroya, Naoto Ohtani, Masaaki Morikawa, and Mitsuru Haruki

Subjects

Circular dichroism, RNase P, Size-exclusion chromatography, Ribonuclease H, medicine.disease_cause, Biochemistry, Bacterial Proteins, Sequence Analysis, Protein, medicine, Escherichia coli, RNase H, Molecular Biology, chemistry.chemical_classification, biology, Molecular mass, Nucleic Acid Heteroduplexes, Substrate (chemistry), General Medicine, Recombinant Proteins, Enzyme, chemistry, Solubility, DNA, Viral, biology.protein, RNA, Viral

Abstract

Escherichia coli RNase HII is composed of 198 amino acid residues. The enzyme has been overproduced in an insoluble form, purified in a urea-denatured form, and refolded with poor yield [M. Itaya (1990) Proc. Natl. Acad. Sci. USA 87, 8587-8591]. To facilitate the preparation of the enzyme in an amount sufficient for physicochemical studies, we constructed an overproducing strain in which E. coli RNase HII is produced in a soluble form. The enzyme was purified from this strain and its biochemical and physicochemical properties were characterized. The good agreement in the molecular weights estimated from SDS-PAGE (23,000) and gel filtration (22,000) suggests that the enzyme acts as a monomer. From the far-UV circular dichroism spectrum, its helical content was calculated to be 23%. The enzyme showed Mn(2+)-dependent RNase H activity. Its specific activity determined using (3)H-labeled M13 RNA/DNA hybrid as a substrate was comparable to but slightly higher than that of the refolded enzyme, indicating that the enzyme overproduced and purified in a soluble form is more suitable for structural and functional analyses than the refolded enzyme.