Your search keyword '"Narumi I"' showing total 111 results

1. Local hydrology control of radiocarbon in stalagmites from the Kyusendo Cave, Kumamoto, Japan

Author

Shoko Hirabayashi, Narumi Ishizawa, and Yusuke Yokoyama

Subjects

Radiocarbon dating, Uranium–thorium dating, Stalagmite, Dead carbon fraction, Geography. Anthropology. Recreation, Archaeology, CC1-960

Abstract

Stalagmite is an important archive of paleoclimate especially in the region of the East Asian Monsoon. Despite the widespread use of radiocarbon (14C) dating to explore past environmental changes, the contribution of a14C-free carbon fraction leached from soil and/or host rocks during stalagmite formation, known as the dead carbon fraction (DCF), impedes its application to stalagmite chronology. Thus, uranium series dating is preferentially used to determine stalagmite ages. However, both U/Th and 14C dating can be applied to stalagmite samples, U/Th can be used to calibrate the radiocarbon ages by assuming a relatively constant DCF contribution over time. Studies exploring DCF changes from glacial to interglacial periods remain scarce, suggesting that temporal and speleothem-specific DCF studies are needed. Here, we present findings on DCF changes over the last 38 ka in speleothems obtained from southwestern Japan. Our analysis includes measurements of both 14C in drip water and speleothem calcite alongside U/Th dating of three stalagmites collected from Kyusendo Cave, located in southern Japan. The DCFs reconstructed from these stalagmites exhibited variations of 37.8%–73.9% between 4.2 and 38.3 ka, which exceeded the typical DCF values reported previously. Intra-test variations of the DCF values in Kyusendo Cave also revealed differences of up to 30%–40% among the three stalagmites. A higher drip water DCF and dripping rate showed a strong negative correlation, indicating that variations in DCF may reflect changes in local hydrology. The study findings suggest that speleothem-specific and temporally varied DCF should be considered in paleoclimate reconstructions using speleothems.

Published

2024

2. Crystal structure of PprA W183R mutant form 2

Author

Adachi, M., primary, Shibazaki, C., additional, Shimizu, R., additional, Arai, S., additional, Satoh, K., additional, Narumi, I., additional, and Kuroki, R., additional

Published

2018

3. Crystal structure of PprA A139R mutant

Author

Adachi, M., primary, Shibazaki, C., additional, Shimizu, R., additional, Arai, S., additional, Satoh, K., additional, Narumi, I., additional, and Kuroki, R., additional

Published

2018

4. Crystal structure of PprA W183R mutant form 1

Author

Adachi, M., primary, Shibazaki, C., additional, Shimizu, R., additional, Arai, S., additional, Satoh, K., additional, Narumi, I., additional, and Kuroki, R., additional

Published

2018

5. Comparative Study of Cardiovascular Effects of Selected Pulmonary Vasodilators in Canine Models of Mitral Valve Disease

Author

Yunosuke Yuchi, Ryohei Suzuki, Narumi Ishida, Shuji Satomi, Takahiro Saito, Takahiro Teshima, and Hirotaka Matsumoto

Subjects

beraprost sodium, cardiac output, dog, mitral valve regurgitation, pulmonary hypertension, pulmonary arterial pressure, Biology (General), QH301-705.5

Abstract

Previous reports have shown that various oral pulmonary vasodilators are effective against canine pulmonary hypertension (PH). However, no studies have compared their hemodynamic effects. We aimed to compare the hemodynamic effects of 15 µg/kg beraprost sodium, 1.0 mg/kg sildenafil, and their combination, in dogs with experimentally induced mitral regurgitation. This experimental crossover study evaluated the hemodynamic and functional effects of oral pulmonary vasodilators by application of right-sided heart catheterization and echocardiography. Beraprost significantly decreased pulmonary and systemic vascular resistance. Additionally, beraprost increased right-ventricular stroke volume and left-ventricular cardiac output without worsening left-heart size and left-atrial pressure. The pulmonary vasodilatory effects of sildenafil were stronger, and its systemic vasodilatory effects were weaker than those of beraprost. However, sildenafil significantly increased the left-ventricular volume, left-atrial pressure indicator, and right-ventricular cardiac output. Combination therapy resulted in the strongest pulmonary and systemic vasodilating effects without worsening the left-heart size and left-atrial pressure indicators. Both beraprost and sildenafil were effective against canine PH; however, sildenafil was associated with the risk of worsening left-heart loading. Combination therapy with beraprost and sildenafil synergistically dilated pulmonary and systemic vessels, indicating a more potent treatment option for severe PH cases.

Published

2024

6. Effect of the space environment on the induction of DNA-repair related proteins and recovery from radiation damage

Author

Kobayashi, Y., Watanabe, H., Kikuchi, M., and Narumi, I.

Published

2000

7. Effective situation-based delirium simulation training using flipped classroom approach to improve interprofessional collaborative practice competency: a mixed-methods study

Author

Kiyoshi Shikino, Narumi Ide, Yoko Kubota, Itsuko Ishii, Shoichi Ito, Masatomi Ikusaka, and Ikuko Sakai

Subjects

Flipped classroom, Interprofessional collaborative practice, Mixed method, Simulation, Special aspects of education, LC8-6691, Medicine

Abstract

Abstract Background Interprofessional collaborative practice competency (ICPC) is key to providing safe, high-quality, accessible, patient-centred care. Effective delirium management, particularly, requires a multi-component intervention, including the use of interprofessional teams at care point. This research aims to investigate the effectiveness of the flipped classroom approach for improving ICPC in simulation-based delirium case management. Method An embedded mixed-methods study was designed to investigate the effects of the flipped classroom approach on health professionals’ performance in delirium management. The study population comprised nine health professionals (three physicians, nurses, and pharmacists each). They used pre-class study materials about delirium management via a digital learning platform before a simulation case training session. A readiness assurance process test was conducted on key concepts, covered in the pre-class study material. Participants were randomly assigned to three teams, each of which included health professionals. Each team participated in a simulation case scenario. For the quantitative outcome measures, the Chiba Interprofessional Competency Scale (CICS29), a validated scale for measuring competencies of interprofessional practice, was used before, after, and three months after the educational intervention. The qualitative component consisted of a post-training questionnaire and semi-structured focused group interviews about the impact of the flipped classroom approach. Result The CICS29 measured after the intervention and three months after was noted to be significantly higher than before the intervention. Three semi-structured focused group interviews were conducted (n=9), which, upon analysis revealed that the flipped classroom approach effected on four stages of Bloom's taxonomy level. A total of nine categories and 17 subcategories were identified corresponding to four levels of the revised Bloom’s taxonomy: remember (1), understand (12), apply (23), and analyse (3). Conclusion The simulation-based skill training using flipped classroom approach can be an effective method for improving ICPC for health professionals. In this approach, an elevated level of cognitive activity is practiced in the Bloom’s taxonomy, and the participants worked on an application-based case simulation that promoted higher level learning and engagement in interprofessional collaborative practice. This approach also established a basic common language of delirium assessment and management, thus facilitating communication among health professionals and improving ICPC.

Published

2022

8. Effects of Denture Treatment on Salivary Metabolites: A Pilot Study

Author

Narumi Ichigaya, Norishige Kawanishi, Takuya Adachi, Masahiro Sugimoto, Katsuhiko Kimoto, and Noriyuki Hoshi

Subjects

oral discomfort, denture treatment, metabolomics, metabolites, resting saliva, stimulated saliva, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Symptoms of oral discomfort such as dry mouth are common in older people wearing dentures. Such symptoms are mainly treated symptomatically. Many of these symptoms are related to saliva, and associations with salivary volume have been reported. Although denture treatment improves symptoms by increasing the amount of saliva, the effects on salivary components remain unclear. This study aimed to investigate the effects of denture treatment on salivary metabolite changes based on salivary metabolome analyses. We enrolled 21 patients requiring denture treatment. At the first visit, and after completion of denture treatment, saliva outflow was measured under resting and stimulated conditions, samples for salivary metabolite analysis were collected, and masticatory efficiency was tested. In all participants, masticatory efficiency increased after denture treatment. Moreover, the amounts of resting and stimulated saliva were increased. Using salivary metabolome analysis, 61 salivary metabolites were detected. Substantial concentration changes were observed for 4 and 21 metabolites in resting and stimulated saliva, respectively. The four metabolites common to both saliva tests had significantly lower concentrations after treatment. These results suggest that the improvement in masticatory function by dentures is related not only to salivary secretion volume, but also to salivary metabolite composition.

Published

2023

9. A reconceptualization of nationalism: Intragroup and intergroup nationalism in ethnic majority and minority groups

Author

Hannah Sheppard, Boris Bizumic, and Narumi Iino

Subjects

Nationalism, Ethnocentrism, Ethnic group, National group, National identity, Psychology, BF1-990

Abstract

Although a popular concept, nationalism suffers from inconsistent definitions and operationalizations. We argue that a new framework of ethnocentrism can be adapted to reconceptualize nationalism. This paper applied this ethnocentrism framework to nationalism across studies in Australia (n = 309) and the U.S. (n = 445) in both ethnic majority and minority groups. The studies examined the psychometric properties of a new nationalism measure, including its underlying structure, antecedents, and correlates. The current studies found support that nationalism consists of two distinct forms, intragroup nationalism and intergroup nationalism, which relate differently to theoretically related external variables. Ethnocentrism and nationalism were found to be conceptually distinct constructs, but the ethnocentrism framework applies clearly to nationalism. The findings have important implications for better understanding nationalism and highlighting the differences in nationalistic attitudes between ethnic majority and minority groups.

Published

2023

10. ISS/JEM曝露部利用実験たんぽぽ：有機物の捕獲と暴露

Author

Mita, H., Hashimoto, H., Hamase, K., Higaside, M., Imai, E., Kawaguchi, Y., Kawai, H., Kanda, K., Kobayashi, K., Nakagawa, K., Narumi, I., Okudaira, K., Tabata, M., Yabuta, H., Yamashita, M., Yano, H., Yhoshida, S., Yokobori, S., Yamagishi, A., and Tanpopo, WG

Abstract

第14回宇宙科学シンポジウム (2014年1月9日-10日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 14ｔh Space Science Symposium (January 9-10, 2014. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 著者人数: 19名, 資料番号: SA6000058225, レポート番号: P2-193

Published

2014

11. Spi-B alleviates food allergy by securing mucosal barrier and immune tolerance in the intestine

Author

Narumi Ishihara, Yutaka Nakamura, Kyosuke Yakabe, Seiga Komiyama, Yumiko Fujimura, Tsuneyasu Kaisho, Shunsuke Kimura, and Koji Hase

Subjects

Spi-B, food allergy, epithelial barrier, IgE, oral tolerance, Immunologic diseases. Allergy, RC581-607

Abstract

Food allergy is a type I allergic reaction induced by mast cells and is mainly activated by allergen-specific immunoglobulin (Ig)E. Spi-B is an E26-transformation-specific (Ets) family transcription factor essential for the differentiation and functional maturation of several immune cell subsets, including mast cells. However, the possible involvement of Spi-B in food allergy remains unclear. In this study, we found that Spi-B-deficient mice were highly susceptible to food allergy to ovalbumin (OVA), as indicated by the exacerbation of diarrhea and elevation of serum IgE levels. These pathological changes were associated with enhanced mast cell infiltration into the intestinal lamina propria. Activation of mast cells in the intestinal mucosa was observed in Spib−/− mice, even under physiological conditions. Accordingly, Spi-B deficiency increased the translocation of fluorescently labeled dextran from the lumen to the serum, suggesting increased intestinal permeability in Spib−/− mice. Moreover, Spib−/− mice showed defects in oral tolerance induction to OVA. These data illustrate that Spi-B suppresses the development of food allergies by controlling the activation of intestinal mast cells and by inducing immune tolerance to food allergens.

Published

2022

12. A Preliminary Pilot Study: Metabolomic Analysis of Saliva in Oral Candidiasis

Author

Takuya Adachi, Norishige Kawanishi, Narumi Ichigaya, Masahiro Sugimoto, Noriyuki Hoshi, and Katsuhiko Kimoto

Subjects

oral candidiasis, metabolome analysis, unstimulated saliva, stimulated saliva, Candida albicans, Microbiology, QR1-502

Abstract

Early detection of oral candidiasis is essential. However, most currently available methods are time-consuming and useful only for screening patients. Previous studies on the relationship between oral candidiasis and saliva have focused on saliva volume and not on its components. Therefore, to clarify the effects of oral candidiasis on salivary metabolites, the relationship between salivary components and oral candidiasis was investigated by comparing the salivary metabolites of oral candidiasis patients and those not previously diagnosed with candidiasis. Forty-five participants visiting our university hospital were included and classified into two groups, the Candida group and the control group, based on the Candida detection test results. The unstimulated saliva was collected using the spitting method over 15 min, and the stimulated saliva was collected using the gum-chewing method over 10 min. The saliva volume was measured, and the saliva samples were frozen and analyzed metabolomically. Metabolome analysis revealed 51 metabolites with peak detection rates exceeding 50%. There was no significant difference in age and sex between the Candida and control groups. In the Candida group, five metabolites (tyrosine, choline, phosphoenolpyruvate, histidine, and 6-phosphogluconate) were significantly elevated in the unstimulated, two (octanoic acid and uridine monophosphate(UMP)) were significantly increased, and four (ornithine, butyrate, aminovalerate and aminolevulinate) were significantly decreased in the stimulated saliva. This study suggests the possibility of identifying metabolites specific to patients with oral candidiasis, which could aid prompt diagnosis.

Published

2022

13. Characterization of M Cells in Tear Duct-Associated Lymphoid Tissue of Mice: A Potential Role in Immunosurveillance on the Ocular Surface

Author

Yuki Oya, Shunsuke Kimura, Yutaka Nakamura, Narumi Ishihara, Shunsuke Takano, Ryo Morita, Mayumi Endo, and Koji Hase

Subjects

tear duct-associated lymphoid tissue, microfold cell, RANKL, osteoprotegerin, IgA, Immunologic diseases. Allergy, RC581-607

Abstract

The ocular mucosal tissues are exposed to potentially harmful foreign antigens in the air and tear fluid. The tear duct-associated lymphoid tissue (TALT) may contribute to immune surveillance in the eye region. Follicle-associated epithelium (FAE) of TALTs is classified as stratified squamous epithelium and consists of squamous epithelial cells arranged in layers on the basement membrane. In contrast, most mucosa-associated lymphoid tissue is covered by a monolayer of epithelium containing microfold (M) cells. Therefore, antigen uptake and the presence of M cells in TALT are not fully understood. The present study found that a small population of FAE cells in the TALT expressed intestinal M-cell markers, namely Sox8, Tnfaip2, GP2, and OPG. This cell population was identified as functional M cells because of their uptake capacity of luminal nanoparticles. In addition, RANKL, which is essential for M-cell differentiation, was expressed by stroma-like cells at the subepithelial region and its receptor RANK by the FAE in the TALT. The administration of RANKL markedly increased the number of Sox8+ M cells. In contrast, deficiency in OPG, an endogenous inhibitor of RANKL, increased the number of M cells in the TALT. These data demonstrate that the RANKL-RANK axis is essential for M-cell differentiation in the TALT. Furthermore, immunization via eye drops elicited the production of antigen-specific antibodies in tears, which was enhanced by RANKL administration. Thus, TALT M cells play an important role in the immunosurveillance of the eye region.

Published

2021

14. New Approach for X-ray Microimaging of Live Cells in the Carbon Window at Subzero Temperatures with the Use of Antifreeze

Author

Takemotoa, K., primary, Narumi, I., additional, Satoh, K., additional, Ohigashi, T., additional, Namba, H., additional, Kihara, H., additional, McNulty, Ian, additional, Eyberger, Catherine, additional, and Lai, Barry, additional

Published

2011

15. Comparative analysis of floral pigmentation between wild-type and white-flowered varieties ofCyclamen graecum

Author

Akita, Y., primary, Ishizaka, H., additional, Nakayama, M., additional, Shimada, A., additional, Kitamura, S., additional, Hase, Y., additional, Narumi, I., additional, and Tanaka, A., additional

Published

2010

16. X-ray imaging of radioresistantDeinococcus radiodurans

Author

Takemoto, K, primary, Narumi, I, additional, Satoh, K, additional, Namba, H, additional, and Kihara, H, additional

Published

2009

17. Deinococcus aerius sp. nov., isolated from the high atmosphere

Author

Yang, Y., primary, Itoh, T., additional, Yokobori, S.-i., additional, Itahashi, S., additional, Shimada, H., additional, Satoh, K., additional, Ohba, H., additional, Narumi, I., additional, and Yamagishi, A., additional

Published

2009

18. Characterization of RecA424 and RecA670 Proteins from Deinococcus radiodurans

Author

Satoh, K., primary, Narumi, I., additional, Kikuchi, M., additional, Kitayama, S., additional, Yanagisawa, T., additional, Yamamoto, K., additional, and Watanabe, H., additional

Published

2002

19. Comparative analysis of floral pigmentation between wild-type and white-flowered varieties of Cyclamen graecum.

Author

AKITA, Y., ISHIZAKA, H., NAKAYAMA, M., SHIMADA^1, A., KITAMURA, S., HASE, Y., NARUMI, I., and TANAKA, A.

Subjects

ANIMAL coloration, CYCLAMEN, PIGMENTS, COLOR in nature, ANIMAL pigments, PAINT materials, COLORING matter

Abstract

The flower colour of Cyclamen graecum gra6 (wild-type) is pink-purple in the main part of the petal, referred to as the 'slip', and deep purple at the petal base, referred to as the 'eye'. On the other hand, flowers of C. graecuin gra5O (a white-flowered variant) exhibit a white colour in both the 'slip' and 'eye' regions. In this study, the relationship between floral pigmentation and the expression of several anthocyanin biosynthesis genes was investigated in C. graecum gra6 and gra5O. The pigments in the 'slip' and 'eye' regions consist mainly of malvidin 3,5-diglucoside in gra6, suggesting that the difference between the colour of the 'slip' and 'eye' regions is related to the amount of anthocyanin present. White-flowered C. graecum gra5O possessed lower amounts of anthocyanins, but higher amounts of flavonols compared to gra6, suggesting a change in metabolism caused by a disruption of anthocyanin biosynthesis. Gene expression analysis demonstrated that expression of the dihydroflavonol 4-reductase gene 2 (CgraDFR2) was lower in gra5O compared with gra6, whereas expression of the three other key genes (dihydroflavonol 4-reductase gene I, flavonoid 3',5'-hydroxylase, and anthocyanidin synthase) did not differ greatly. These results suggest that the white- flowered variant (gra5O) may result from a defect in expression of the CgraDFR2 gene. [ABSTRACT FROM AUTHOR]

Published

2010

20. The Deinococcus radiodurans uvrA gene: identification of mutation sites in two mitomycin-sensitive strains and the first discovery of insertion sequence element from deinobacteria

Author

Narumi, I., Cherdchu, K., Kitayama, S., and Watanabe, H.

Published

1997

21. Characterization of a Long-Lived Alginate Lyase Derived from Shewanella Species YH1

Author

Hisashi Yagi, Natsuki Isobe, Narumi Itabashi, Asako Fujise, and Takashi Ohshiro

Subjects

alginate lyase, Shewanella sp., PL family 7, characterization, alginate, Biology (General), QH301-705.5

Abstract

Polysaccharides from seaweeds are widely used in various fields, including the food, biomedical material, cosmetic, and biofuel industries. Alginate, which is a major polysaccharide in brown algae, and the products of its degradation (oligosaccharides) have been used in stabilizers, thickeners, and gelling agents, especially in the food industry. Discovering novel alginate lyases with unique characteristics for the efficient production of oligosaccharides may be relevant for the food and pharmaceutical fields. In this study, we identified a unique alginate lyase derived from an alginate-utilizing bacterium, Shewanella species YH1. The recombinant enzyme (rAlgSV1-PL7) was produced in an Escherichia coli system and it was classified in the Polysaccharide Lyase family 7. The optimal temperature and pH for rAlgSV1-PL7 activity were around 45 °C and 8, respectively. Interestingly, we observed that rAlgSV1-PL7 retained over 80% of its enzyme activity after incubation at 30 °C for at least 20 days, indicating that rAlgSV1-PL7 is a long-lived enzyme. Moreover, the degradation of alginate by rAlgSV1-PL7 produced one to four sugars because of the broad substrate specificity of this enzyme. Our findings suggest that rAlgSV1-PL7 may represent a new commercially useful enzyme.

Published

2017

22. Sequence analysis of the L-lactate dehydrogenase-encoding gene of Deinococcus radiodurans, a suitable mesophilic counterpart for Thermus

Author

Narumi, I. and Watanabe, H.

Published

1996

23. X-ray imaging of radioresistant Deinococcus radiodurans.

Author

Takemoto, K., Narumi, I., Satoh, K., Namba, H., and Kihara, H.

Published

2009

24. Effect of gamma irradiation on the proteogenome of cold-acclimated Kocuria rhizophila PT10.

Author

Guesmi S, Ghedira K, Pujic P, Najjari A, Miotello G, Cherif A, Narumi I, Armengaud J, Normand P, and Sghaier H

Subjects

Rhizosphere, Tandem Mass Spectrometry, Proteomics, Acclimatization, Gene Expression Regulation, Bacterial radiation effects, Bacterial Proteins metabolism, Bacterial Proteins genetics, Gamma Rays, Cold Temperature, Proteome analysis

Abstract

The effects of ionizing radiation (IR) on the protein dynamics of cold-stressed cells of a radioresistant actinobacterium, Kocuria rhizophila PT10, isolated from the rhizosphere of the desert plant Panicum turgidum were investigated using a shotgun methodology based on nanoflow liquid chromatography coupled to tandem mass spectrometry. Overall, 1487 proteins were certified, and their abundances were compared between the irradiated condition and control. IR of cold-acclimated PT10 triggered the over-abundance of proteins involved in (1) a strong transcriptional regulation, (2) amidation of peptidoglycan and preservation of cell envelope integrity, (3) detoxification of reactive electrophiles and regulation of the redox status of proteins, (4) base excision repair and prevention of mutagenesis and (5) the tricarboxylic acid (TCA) cycle and production of fatty acids. Also, one of the more significant findings to emerge from this study is the SOS response of stressed PT10. Moreover, a comparison of top hits radio-modulated proteins of cold-acclimated PT10 with proteomics data from gamma-irradiated Deinococcus deserti showed that stressed PT10 has a specific response characterised by a high over-abundance of NemA, GatD, and UdgB., Competing Interests: Declaration of competing interest None declared., (Copyright © 2024 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2024

25. Developing a new host-vector system for Deinococcus grandis .

Author

Sakai M, Shimosaka T, Katsumata K, Yohda M, and Narumi I

Abstract

Deinococcus spp. are known for their radiation resistance, toxic compound removal, and production of valuable substances. Therefore, developing gene expression systems for Deinococcus spp. is crucial in advancing genetic engineering applications. To date, plasmid vectors that express foreign genes in D. radiodurans and D. geothermalis have been limited to plasmid pI3 and its derivatives. In contrast, plasmid vectors that express foreign genes in D. grandis include plasmid pZT23 and its derivatives. In this study, we developed a new system for the stable introduction and retention of expression plasmids for D. grandis . Two cryptic plasmids were removed from the wild-type strain to generate the TY3 strain. We then constructed a shuttle vector plasmid, pGRC5, containing the replication initiation region of the smallest cryptic plasmid, pDEGR-3, replication initiation region of the E. coli vector, pACYC184, and an antibiotic resistance gene. We introduced pGRC5, pZT23-derived plasmid pZT29H, and pI3-derived plasmid pRADN8 into strain TY3, and found their coexistence in D. grandis cells. The quantitative PCR assay results found that pGRC5, pZT29H, and pRADN8 had relative copy numbers of 11, 26, and 5 per genome, respectively. Furthermore, we developed a new plasmid in which the luciferase gene was controlled by the promoter region, which contained radiation-desiccation response operator sequences for D. grandis DdrO, a stress response regulon repressor in D. grandis , hence inducing gene expression via ultraviolet-C light irradiation. These plasmids are expected to facilitate the removal and production of toxic and valuable substances, in D. grandis , respectively, particularly of those involving multiple genes., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Sakai, Shimosaka, Katsumata, Yohda and Narumi.)

Published

2024

26. Microbiome analysis of the restricted bacteria in radioactive element-containing water at the Fukushima Daiichi Nuclear Power Station.

Author

Warashina T, Sato A, Hinai H, Shaikhutdinov N, Shagimardanova E, Mori H, Tamaki S, Saito M, Sanada Y, Sasaki Y, Shimada K, Dotsuta Y, Kitagaki T, Maruyama S, Gusev O, Narumi I, Kurokawa K, Morita T, Ebisuzaki T, Nishimura A, Koma Y, and Kanai A

Subjects

Water analysis, Cesium Radioisotopes analysis, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 16S analysis, Japan, Fukushima Nuclear Accident, Radiation Monitoring, Water Pollutants, Radioactive analysis

Abstract

A major incident occurred at the Fukushima Daiichi Nuclear Power Station following the tsunami triggered by the Tohoku-Pacific Ocean Earthquake in March 2011, whereby seawater entered the torus room in the basement of the reactor building. Here, we identify and analyze the bacterial communities in the torus room water and several environmental samples. Samples of the torus room water (1 × 10 9 Bq 137 Cs/L) were collected by the Tokyo Electric Power Company Holdings from two sampling points between 30 cm and 1 m from the bottom of the room (TW1) and the bottom layer (TW2). A structural analysis of the bacterial communities based on 16S rRNA amplicon sequencing revealed that the predominant bacterial genera in TW1 and TW2 were similar. TW1 primarily contained the genus Limnobacter , a thiosulfate-oxidizing bacterium. γ-Irradiation tests on Limnobacter thiooxidans , the most closely related phylogenetically found in TW1, indicated that its radiation resistance was similar to ordinary bacteria. TW2 predominantly contained the genus Brevirhabdus , a manganese-oxidizing bacterium. Although bacterial diversity in the torus room water was lower than seawater near Fukushima, ~70% of identified genera were associated with metal corrosion. Latent environment allocation-an analytical technique that estimates habitat distributions and co-detection analyses-revealed that the microbial communities in the torus room water originated from a distinct blend of natural marine microbial and artificial bacterial communities typical of biofilms, sludge, and wastewater. Understanding the specific bacteria linked to metal corrosion in damaged plants is important for advancing decommissioning efforts., Importance: In the context of nuclear power station decommissioning, the proliferation of microorganisms within the reactor and piping systems constitutes a formidable challenge. Therefore, the identification of microbial communities in such environments is of paramount importance. In the aftermath of the Fukushima Daiichi Nuclear Power Station accident, microbial community analysis was conducted on environmental samples collected mainly outside the site. However, analyses using samples from on-site areas, including adjacent soil and seawater, were not performed. This study represents the first comprehensive analysis of microbial communities, utilizing meta 16S amplicon sequencing, with a focus on environmental samples collected from the radioactive element-containing water in the torus room, including the surrounding environments. Some of the identified microbial genera are shared with those previously identified in spent nuclear fuel pools in countries such as France and Brazil. Moreover, our discussion in this paper elucidates the correlation of many of these bacteria with metal corrosion., Competing Interests: The authors declare no conflict of interest.

Published

2024

27. Development of a simple multiple mutation detection system using seed-coat flavonoid pigments in irradiated Arabidopsis M 1 plants.

Author

Kitamura S, Hirata S, Satoh K, Inamura R, Narumi I, and Oono Y

Subjects

Flavonoids, Anthocyanins genetics, Plant Breeding, Mutation, Seeds genetics, Seeds metabolism, Gene Expression Regulation, Plant, Arabidopsis metabolism, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism

Abstract

Ionizing radiation induces genetic variations in plants, which makes it useful for plant breeding. A theory that the induced mutations occur randomly in the genome has long been accepted, but is now controversial. Nevertheless, a comparative analysis of the mutations at multiple loci has not been conducted using irradiated M 1 genomes that contain all types of mutations. In this study, we identified Arabidopsis mutants (pab2 and pab3) in a mutagenized population of an anthocyanin-positive seed mutant (ban). Both pab2 and pab3 were revealed to be double mutants (tt4 ban and tt8 ban, respectively) that produced similar anthocyanin-less immature seeds, but differentially colored mature seeds. These features enabled the seed color-based detection of de novo M 1 mutations in TT4 or TT8 following the irradiation of double heterozygous plants (TT4/tt4 TT8/tt8 ban/ban). Most of the irradiated double heterozygous plants produced anthocyanin-positive immature seeds, but 19 plants produced anthocyanin-less immature seeds. Of these 19 mutants, 2 and 17 exhibited tt4- and tt8-type mature seed coloration, respectively. The molecular analysis of the seed coat DNA from randomly selected anthocyanin-less seeds detected mutations at the locus predicted on the basis of the phenotype. Thus, the simple system developed in this study can reliably detect radiation-induced mutations at multiple loci in irradiated Arabidopsis M 1 plants., (© 2022. The Author(s).)

Published

2022

28. Complete Genome Sequence of the Radioresistant Bacterium Deinococcus aetherius ST0316, Isolated from Air Dust Collected in the Lower Stratosphere above Japan.

Author

Satoh K, Hagiwara K, Katsumata K, Kubo A, Yokobori SI, Yamagishi A, Oono Y, and Narumi I

Abstract

Deinococcus aetherius ST0316 is a radioresistant bacterium that possess proficient DNA repair capacity. Here, we report the complete genome sequence of D. aetherius, which was obtained by hybrid assembly using short- and long-read sequencing. This sequence will be important information for elucidating the unique DNA repair mechanism of Deinococcus bacteria.

Published

2022

29. Mutation Analysis of the rpoB Gene in the Radiation-Resistant Bacterium Deinococcus radiodurans R1 Exposed to Space during the Tanpopo Experiment at the International Space Station.

Author

Fujiwara D, Kawaguchi Y, Kinoshita I, Yatabe J, Narumi I, Hashimoto H, Yokobori SI, and Yamagishi A

Subjects

Microbial Viability, Mutation, Ultraviolet Rays, Deinococcus genetics, Deinococcus metabolism, Space Flight

Abstract

To investigate microbial viability and DNA damage, dried cell pellets of the radiation-resistant bacterium Deinococcus radiodurans were exposed to various space environmental conditions at the Exposure Facility of the International Space Station (ISS) as part of the Tanpopo mission. Mutation analysis was done by sequencing the rpoB gene encoding RNA polymerase β-subunit of the rifampicin-resistant mutants. Samples included bacteria exposed to the space environment with and without exposure to UV radiation as well as control samples held in the ISS cabin and at ground. The mutation sites of the rpoB gene obtained from the space-exposed and ISS/ground control samples were similar to the rpoB mutation sites previously reported in D. radiodurans . Most mutations were found at or near the rifampicin binding site in the RNA polymerase β-subunit. Mutation sites found in UV-exposed samples were mostly shared with non-exposed and ISS/ground control samples. These results suggest that most mutations found in our experiments were induced during procedures that were applied across all treatments: preparation, transfer from our laboratory to the ISS, return from the ISS, and storage before analysis. Some mutations may be enhanced by specific factors in the space experiments, but the mutations were also found in the spontaneous and control samples. Our experiment suggests that the dried cells of the microorganism D. radiodurans can travel without space-specific deterioration that may induce excess mutations relative to travel at Earth's surface. However, upon arrival at a recipient location, they must still be able to survive and repair the general damage induced during travel.

Published

2021

30. Complete Genome Sequence of the Cesium-Accumulating Bacterium Rhodococcus qingshengii CS98, Isolated from Soil in Japan.

Author

Satoh K, Ozawa S, Hayashi H, Tomioka N, Narumi I, and Oono Y

Abstract

Rhodococcus qingshengii CS98 is a bacterium isolated from soil in Japan that shows strong cesium-accumulating ability. Here, we report the complete genome sequence of R. qingshengii (6.7 Mb), which may provide useful genetic information supporting its bioremediation features., (Copyright © 2020 Satoh et al.)

Published

2020

31. DNA Damage and Survival Time Course of Deinococcal Cell Pellets During 3 Years of Exposure to Outer Space.

Author

Kawaguchi Y, Shibuya M, Kinoshita I, Yatabe J, Narumi I, Shibata H, Hayashi R, Fujiwara D, Murano Y, Hashimoto H, Imai E, Kodaira S, Uchihori Y, Nakagawa K, Mita H, Yokobori SI, and Yamagishi A

Abstract

The hypothesis called "panspermia" proposes an interplanetary transfer of life. Experiments have exposed extremophilic organisms to outer space to test microbe survivability and the panspermia hypothesis. Microbes inside shielding material with sufficient thickness to protect them from UV-irradiation can survive in space. This process has been called "lithopanspermia," meaning rocky panspermia. We previously proposed sub-millimeter cell pellets (aggregates) could survive in the harsh space environment based on an on-ground laboratory experiment. To test our hypothesis, we placed dried cell pellets of the radioresistant bacteria Deinococcus spp. in aluminum plate wells in exposure panels attached to the outside of the International Space Station (ISS). We exposed microbial cell pellets with different thickness to space environments. The results indicated the importance of the aggregated form of cells for surviving in harsh space environment. We also analyzed the samples exposed to space from 1 to 3 years. The experimental design enabled us to get and extrapolate the survival time course to predict the survival time of Deinococcus radiodurans . Dried deinococcal cell pellets of 500 μm thickness were alive after 3 years of space exposure and repaired DNA damage at cultivation. Thus, cell pellets 1 mm in diameter have sufficient protection from UV and are estimated to endure the space environment for 2-8 years, extrapolating the survival curve and considering the illumination efficiency of the space experiment. Comparison of the survival of different DNA repair-deficient mutants suggested that cell aggregates exposed in space for 3 years suffered DNA damage, which is most efficiently repaired by the uvrA gene and uvdE gene products, which are responsible for nucleotide excision repair and UV-damage excision repair. Collectively, these results support the possibility of microbial cell aggregates (pellets) as an ark for interplanetary transfer of microbes within several years., (Copyright © 2020 Kawaguchi, Shibuya, Kinoshita, Yatabe, Narumi, Shibata, Hayashi, Fujiwara, Murano, Hashimoto, Imai, Kodaira, Uchihori, Nakagawa, Mita, Yokobori and Yamagishi.)

Published

2020

32. Draft Genome Sequence of Calcium-Dependent Novosphingobium sp. Strain TCA1, Isolated from a Hot Spring Containing a High Concentration of Calcium Ions.

Author

Fujinami S, Satoh K, Narumi I, and Ito M

Abstract

Calcium-dependent Novosphingobium sp. strain TCA1 was newly isolated from a water sample from a hot spring containing a high concentration of calcium ions. Here, we report the draft genome sequence of this bacterium, which may be the basis for research on calcium ion homeostasis., (Copyright © 2020 Fujinami et al.)

Published

2020

33. Complete Genome Sequence of a Radioresistant Bacterial Strain, Deinococcus grandis ATCC 43672.

Author

Shibai A, Satoh K, Kawada M, Kotani H, Narumi I, and Furusawa C

Abstract

Deinococcus grandis is a radioresistant bacterial species isolated from freshwater fish. In this article, we report the complete genome sequence of D. grandis strain ATCC 43672. This sequence is useful for comparative genomics to understand the traits of Deinococcus species and can be used as a reference in experimental genetics., (Copyright © 2019 Shibai et al.)

Published

2019

34. Pol B, a Family B DNA Polymerase, in Thermococcus kodakarensis is Important for DNA Repair, but not DNA Replication.

Author

Kushida T, Narumi I, Ishino S, Ishino Y, Fujiwara S, Imanaka T, and Higashibata H

Subjects

Bacterial Proteins genetics, DNA Damage drug effects, DNA Damage genetics, DNA Repair drug effects, DNA Replication, Gene Deletion, Gene Expression, Nucleic Acid Synthesis Inhibitors pharmacology, Thermococcus drug effects, DNA Repair genetics, DNA, Archaeal genetics, DNA-Directed DNA Polymerase genetics, Thermococcus enzymology, Thermococcus genetics

Abstract

Thermococcus kodakarensis possesses two DNA polymerases, Pol B and Pol D. We generated a T. kodakarensis strain (DPB1) in which polB was completely deleted and a derivative of DPB1 in which polB was overexpressed; neither of the generated strains exhibited any growth delay, indicating that the lack or overexpression of Pol B in T. kodakarensis did not affect cell growth. We also found that DPB1 showed higher sensitivity to four DNA-damaging agents (ultraviolet C irradiation, γ-ray irradiation, methyl methanesulfonate, and mitomycin C) than the parental strain. The sensitivity of DPB1 was restored to the level of the parent strain by the introduction of a plasmid harboring polB, suggesting that the DNA damage-sensitive phenotype of DPB1 was due to the loss of polB. Collectively, these results indicate that Pol B is involved in DNA repair, but not DNA replication, which, in turn, implies that Pol D is the sole replicative DNA polymerase in Thermococcus species.

Published

2019

35. Sensitivity of Deinococcus grandis rodZ deletion mutant to calcium ions results in enhanced spheroplast size.

Author

Morita Y, Okumura M, Narumi I, and Nishida H

Abstract

RodZ is a cytoskeletal protein associated with bacterial cell shape. It is a transmembrane protein located on the plasma membrane, and it binds to another cytoskeletal protein MreB. Deinococcus grandis contains a rodZ homolog. Although D. grandis is rod-shaped, it becomes spherical in shape when the rodZ homolog is disrupted. The rodZ deletion mutant was treated with lysozyme to generate spheroplasts. The spheroplasts enlarged in medium containing calcium chloride and penicillin. The rodZ deletion mutant spheroplasts were more sensitive to calcium ions than wild type. Cell and cytoplasm sizes of enlarged spheroplasts of the rodZ deletion mutant tended to be larger than those of wild type. Thus, disruption of rodZ enhances plasma and outer membrane expansion in D. grandis spheroplasts., Competing Interests: Conflict of Interest: The authors declare that there is no conflict of interest regarding the publication of this paper.

Published

2019

36. Extended structure of pleiotropic DNA repair-promoting protein PprA from Deinococcus radiodurans.

Author

Adachi M, Shimizu R, Shibazaki C, Satoh K, Fujiwara S, Arai S, Narumi I, and Kuroki R

Subjects

Amino Acids genetics, DNA genetics, Radiation Tolerance genetics, Bacterial Proteins genetics, DNA Repair genetics, Deinococcus genetics

Abstract

Pleiotropic protein promoting DNA repair A (PprA) is a key protein facilitating the extreme radiation resistance of Deinococcus radiodurans. PprA is a unique protein to the genus Deinococcus and exists as an oligomer ranging from a tetramer to an ∼100-mer depending on protein concentrations. Here, the X-ray crystal structure of PprA was determined to clarify how PprA confers radiation resistance. The tertiary structure of dimeric PprA was elucidated by using mutants obtained with random and site-directed mutagenesis methods (W183R and A139R); these mutants have disabled DNA binding and polymerization functions. Because the mutant A139R and W183R proteins have dimeric assemblies with 2 different interfaces (Interfaces 1 and 2), the linear and oligomerized PprA model was constructed as a left-handed face-to-face periodic screw structure. In addition, the linear structure in solution was confirmed by small-angle scattering experiments. The site-directed mutational analysis identified essential basic amino acids for DNA binding. These analytical data support the hypothesis that a complex assembly of PprA molecules, which are extended and have a screw structure, surrounds and stretches the DNA strand, acting as a novel guide to colocalize the DNA strands for efficient DNA repairs.-Adachi, M., Shimizu, R., Shibazaki, C., Satoh, K., Fujiwara, S., Arai, S., Narumi, I., Kuroki, R. Extended structure of pleiotropic DNA repair-promoting protein PprA from Deinococcus radiodurans.

Published

2019

37. Enlargement of Deinococcus grandis spheroplasts requires  Mg 2+ or Ca 2 .

Author

Nishino K, Morita Y, Takahashi S, Okumura M, Shiratani S, Umemura K, Narumi I, Kondo C, Ochiai R, Oshima T, and Nishida H

Subjects

Culture Media metabolism, Calcium metabolism, Deinococcus growth & development, Magnesium metabolism, Membrane Lipids metabolism, Spheroplasts growth & development

Abstract

While the cell wall strictly controls cell size and morphology in bacteria, spheroplasts lack cell walls and can become enlarged in growth medium under optimal conditions. Optimal conditions depend on the bacterial species. We frequently observed extreme enlargement of spheroplasts of the radiation-resistant bacterium Deinococcus grandis in Difco Marine Broth 2216, but not in TGY broth (a commonly used growth medium for Deinococcus). Thorough investigation of media components showed that the presence of Mg 2+ or Ca 2+ promoted extreme spheroplast enlargement, synthesizing the outer membrane. Our findings strongly suggest that Mg 2+ or Ca 2+ enlarges spheroplasts, which could change the lipid composition of the spheroplast membrane.

Published

2018

38. Draft Genome Sequence of the Radioresistant Bacterium Deinococcus aerius TR0125, Isolated from the High Atmosphere above Japan.

Author

Satoh K, Arai H, Sanzen T, Kawaguchi Y, Hayashi H, Yokobori SI, Yamagishi A, Oono Y, and Narumi I

Abstract

Deinococcus aerius strain TR0125 is a bacterium isolated from the high atmosphere above Japan that shows strong resistance to desiccation, UV-C, and gamma radiation. Here, we report the draft genome sequence of D. aerius (4.5 Mb), which may provide useful genetic information supporting its biochemical features., (Copyright © 2018 Satoh et al.)

Published

2018

39. Evaluation of metabolic changes in oxalate-rich plant Rumex obtusifolius L. caused by ion beam irradiation.

Author

Miyagi A, Kitano S, Oono Y, Hase Y, Narumi I, Yamaguchi M, Uchimiya H, and Kawai-Yamada M

Subjects

Metabolome radiation effects, Oxalic Acid, Plant Leaves metabolism, Radiation, Ionizing, Rumex metabolism

Abstract

Some Rumex species such as sorrel are edible as baby leaf salad greens. On the other hand, Rumex plants accumulate soluble oxalate, a toxic metabolite which causes serious diseases such as renal syndrome. We attempted to produce low-oxalate plants of R. obtusifolius, a perennial weed which has higher vitamin C and amino acid content and higher tolerance to stress than many other Rumex species. Ion beams are ionising radiation with high linear energy transfer that causes a wide spectrum of mutations. Thus, in the present study we evaluated the effects of ion beams on oxalate and other primary metabolites in leaves of R. obtusifolius using CE-MS. The results showed that oxalate content was increased by irradiation with carbon ion beams. Metabolome analysis revealed that ion beams affected carbon flow to the isocitrate pathway, which is involved in oxalate synthesis. These observations suggested that modulation of carbon flow to the isocitrate pathway is important to regulate oxalate levels in plants., (Copyright © 2017 Elsevier Masson SAS. All rights reserved.)

Published

2018

40. PprM, a Cold Shock Domain-Containing Protein from Deinococcus radiodurans , Confers Oxidative Stress Tolerance to Escherichia coli .

Author

Park SH, Singh H, Appukuttan D, Jeong S, Choi YJ, Jung JH, Narumi I, and Lim S

Abstract

Escherichia coli is a representative microorganism that is frequently used for industrial biotechnology; thus its cellular robustness should be enhanced for the widespread application of E. coli in biotechnology. Stress response genes from the extremely radioresistant bacterium Deinococcus radiodurans have been used to enhance the stress tolerance of E. coli . In the present study, we introduced the cold shock domain-containing protein PprM from D. radiodurans into E. coli and observed that the tolerance to hydrogen peroxide (H 2 O 2 ) was significantly increased in recombinant strains (Ec-PprM). The overexpression of PprM in E. coli elevated the expression of some OxyR-dependent genes, which play important roles in oxidative stress tolerance. Particularly, mntH (manganese transporter) was activated by 9-fold in Ec-PprM, even in the absence of H 2 O 2 stress, which induced a more than 2-fold increase in the Mn/Fe ratio compared with wild type. The reduced production of highly reactive hydroxyl radicals (·OH) and low protein carbonylation levels (a marker of oxidative damage) in Ec-PprM indicate that the increase in the Mn/Fe ratio contributes to the protection of cells from H 2 O 2 stress. PprM also conferred H 2 O 2 tolerance to E. coli in the absence of OxyR. We confirmed that the H 2 O 2 tolerance of oxyR mutants reflected the activation of the ycgZ - ymgABC operon, whose expression is activated by H 2 O 2 in an OxyR-independent manner. Thus, the results of the present study showed that PprM could be exploited to improve the robustness of E. coli .

Published

2017

41. DNA Gyrase of Deinococcus radiodurans is characterized as Type II bacterial topoisomerase and its activity is differentially regulated by PprA in vitro.

Author

Kota S, Rajpurohit YS, Charaka VK, Satoh K, Narumi I, and Misra HS

Subjects

Bacterial Proteins chemistry, Bacterial Proteins genetics, DNA Gyrase chemistry, DNA Gyrase genetics, DNA Ligases metabolism, Deinococcus genetics, Mutation, Protein Binding, Protein Domains, Protein Subunits chemistry, Protein Subunits genetics, Protein Subunits metabolism, Bacterial Proteins metabolism, DNA Gyrase metabolism, Deinococcus enzymology

Abstract

The multipartite genome of Deinococcus radiodurans forms toroidal structure. It encodes topoisomerase IB and both the subunits of DNA gyrase (DrGyr) while lacks other bacterial topoisomerases. Recently, PprA a pleiotropic protein involved in radiation resistance in D. radiodurans has been suggested for having roles in cell division and genome maintenance. In vivo interaction of PprA with topoisomerases has also been shown. DrGyr constituted from recombinant gyrase A and gyrase B subunits showed decatenation, relaxation and supercoiling activities. Wild type PprA stimulated DNA relaxation activity while inhibited supercoiling activity of DrGyr. Lysine133 to glutamic acid (K133E) and tryptophane183 to arginine (W183R) replacements resulted loss of DNA binding activity in PprA and that showed very little effect on DrGyr activities in vitro. Interestingly, wild type PprA and its K133E derivative continued interacting with GyrA in vivo while W183R, which formed relatively short oligomers did not interact with GyrA. The size of nucleoid in PprA mutant (1.9564 ± 0.324 µm) was significantly bigger than the wild type (1.6437 ± 0.345 µm). Thus, we showed that DrGyr confers all three activities of bacterial type IIA family DNA topoisomerases, which are differentially regulated by PprA, highlighting the significant role of PprA in DrGyr activity regulation and genome maintenance in D. radiodurans.

Published

2016

42. Draft Genome Sequence of the Radioresistant Bacterium Deinococcus grandis, Isolated from Freshwater Fish in Japan.

Author

Satoh K, Onodera T, Omoso K, Takeda-Yano K, Katayama T, Oono Y, and Narumi I

Abstract

Deinococcus grandis is a radioresistant bacterium isolated from freshwater fish in Japan. Here we reported the draft genome sequence of D. grandis (4.1 Mb), which will be useful for elucidating the common principles of radioresistance in Deinococcus species through the comparative analysis of genomic sequences., (Copyright © 2016 Satoh et al.)

Published

2016

43. Arabidopsis pab1, a mutant with reduced anthocyanins in immature seeds from banyuls, harbors a mutation in the MATE transporter FFT.

Author

Kitamura S, Oono Y, and Narumi I

Subjects

Alleles, Arabidopsis metabolism, Arabidopsis Proteins metabolism, Biosynthetic Pathways, Flavonoids metabolism, Gene Expression, Genes, Reporter, Membrane Transport Proteins metabolism, Mutation, Phenotype, Pigmentation, Plant Leaves genetics, Plant Leaves metabolism, Plant Stems genetics, Plant Stems metabolism, Seeds genetics, Seeds metabolism, Vacuoles metabolism, Anthocyanins metabolism, Arabidopsis genetics, Arabidopsis Proteins genetics, Membrane Transport Proteins genetics

Abstract

Forward genetics approaches have helped elucidate the anthocyanin biosynthetic pathway in plants. Here, we used the Arabidopsis banyuls (ban) mutant, which accumulates anthocyanins, instead of colorless proanthocyanidin precursors, in immature seeds. In contrast to standard screens for mutants lacking anthocyanins in leaves/stems, we mutagenized ban plants and screened for mutants showing differences in pigmentation of immature seeds. The pale banyuls1 (pab1) mutation caused reduced anthocyanin pigmentation in immature seeds compared with ban. Immature pab1 ban seeds contained less anthocyanins and flavonols than ban, but showed normal expression of anthocyanin biosynthetic genes. In contrast to pab1, introduction of a flavonol-less mutation into ban did not produce paler immature seeds. Map-based cloning showed that two independent pab1 alleles disrupted the MATE-type transporter gene FFT/DTX35. Complementation of pab1 with FFT confirmed that mutation in FFT causes the pab1 phenotype. During development, FFT promoter activity was detected in the seed-coat layers that accumulate flavonoids. Anthocyanins accumulate in the vacuole and FFT fused to GFP mainly localized in the vacuolar membrane. Heterologous expression of grapevine MATE-type anthocyanin transporter gene partially complemented the pab1 phenotype. These results suggest that FFT acts at the vacuolar membrane in anthocyanin accumulation in the Arabidopsis seed coat, and that our screening strategy can reveal anthocyanin-related genes that have not been found by standard screening.

Published

2016

44. Draft Genome Sequence of Methylobacterium sp. ME121, Isolated from Soil as a Mixed Single Colony with Kaistia sp. 32K.

Author

Fujinami S, Takeda-Yano K, Onodera T, Satoh K, Shimizu T, Wakabayashi Y, Narumi I, Nakamura A, and Ito M

Abstract

Methylobacterium sp. ME121 was isolated from soil as a mixed single colony with Kaistia sp. 32K, and its growth was enhanced by coculture. Here, we report the draft genome sequence of Methylobacterium sp. ME121, which may contribute to the study of the molecular mechanisms underlying this phenomenon., (Copyright © 2015 Fujinami et al.)

Published

2015

45. DNA repair in hyperthermophilic and hyperradioresistant microorganisms.

Author

Ishino Y and Narumi I

Subjects

Archaea metabolism, Archaea radiation effects, DNA, Archaeal genetics, DNA, Archaeal radiation effects, DNA, Bacterial genetics, DNA, Bacterial radiation effects, Deinococcus metabolism, Deinococcus radiation effects, Escherichia coli genetics, Genome, Bacterial radiation effects, Genomic Instability, Hot Temperature, Archaea genetics, DNA Repair, DNA, Archaeal metabolism, DNA, Bacterial metabolism, Deinococcus genetics

Abstract

The genome of a living cell is continuously under attack by exogenous and endogenous genotoxins. Especially, life at high temperature inflicts additional stress on genomic DNA, and very high rates of potentially mutagenic DNA lesions, including deamination, depurination, and oxidation, are expected. However, the spontaneous mutation rates in hyperthermophiles are similar to that in Escherichia coli, and it is interesting to determine how the hyperthermophiles preserve their genomes under such grueling environmental conditions. In addition, organisms with extremely radioresistant phenotypes are targets for investigating special DNA repair mechanisms in extreme environments. Multiple DNA repair mechanisms have evolved in all organisms to ensure genomic stability, by preventing impediments that result in genome destabilizing lesions., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

46. Draft Genome Sequence of Bacillus alcalophilus AV1934, a Classic Alkaliphile Isolated from Human Feces in 1934.

Author

Attie O, Jayaprakash A, Shah H, Paulsen IT, Morino M, Takahashi Y, Narumi I, Sachidanandam R, Satoh K, Ito M, and Krulwich TA

Abstract

Bacillus alcalophilus AV1934, isolated from human feces, was described in 1934 before microbiome studies and recent indications of novel potassium ion coupling to motility in this extremophile. Here, we report draft sequences that will facilitate an examination of whether that coupling is part of a larger cycle of potassium ion-coupled transporters., (Copyright © 2014 Attie et al.)

Published

2014

47. Interaction of double-stranded DNA with polymerized PprA protein from Deinococcus radiodurans.

Author

Adachi M, Hirayama H, Shimizu R, Satoh K, Narumi I, and Kuroki R

Subjects

Bacterial Proteins metabolism, Binding Sites, DNA Breaks, Single-Stranded, DNA Repair, DNA, Superhelical, Deinococcus genetics, Electrophoretic Mobility Shift Assay, Escherichia coli metabolism, Radiation Tolerance, Recombinant Proteins genetics, Recombinant Proteins metabolism, Salts, Bacterial Proteins genetics, DNA, Bacterial genetics, Deinococcus metabolism, Escherichia coli genetics

Abstract

Pleiotropic protein promoting DNA repair A (PprA) is a key protein that facilitates the extreme radioresistance of Deinococcus radiodurans. To clarify the role of PprA in the radioresistance mechanism, the interaction between recombinant PprA expressed in Escherichia coli with several double-stranded DNAs (i.e., super coiled, linear, or nicked circular dsDNA) was investigated. In a gel-shift assay, the band shift of supercoiled pUC19 DNA caused by the binding of PprA showed a bimodal distribution, which was promoted by the addition of 1 mM Mg, Ca, or Sr ions. The dissociation constant of the PprA-supercoiled pUC19 DNA complex, calculated from the relative portions of shifted bands, was 0.6 μM with Hill coefficient of 3.3 in the presence of 1 mM Mg acetate. This indicates that at least 281 PprA molecules are required to saturate a supercoiled pUC19 DNA, which is consistent with the number (280) of bound PprA molecules estimated by the UV absorption of the PprA-pUC19 complex purified by gel filtration. This saturation also suggests linear polymerization of PprA along the dsDNA. On the other hand, the bands of linear dsDNA and nicked circular dsDNA that eventually formed PprA complexes did not saturate, but created larger molecular complexes when the PprA concentration was >1.3 μM. This result implies that DNA-bound PprA aids association of the termini of damaged DNAs, which is regulated by the concentration of PprA. These findings are important for the understanding of the mechanism underlying effective DNA repair involving PprA., (© 2014 The Protein Society.)

Published

2014

48. Draft Genome Sequence of Calcium-Dependent Paenibacillus sp. Strain TCA20, Isolated from a Hot Spring Containing a High Concentration of Calcium Ions.

Author

Fujinami S, Takeda-Yano K, Onodera T, Satoh K, Sano M, Takahashi Y, Narumi I, and Ito M

Abstract

Calcium-dependent Paenibacillus sp. strain TCA20 was isolated from a water sample of a hot spring containing a high concentration of calcium ions. Here, we report the draft genome sequence of this bacterium, which may be the basis for the research of calcium ion homeostasis., (Copyright © 2014 Fujinami et al.)

Published

2014

49. Draft Genome Sequence of Potassium-Dependent Alkaliphilic Bacillus sp. Strain TS-2, Isolated from a Jumping Spider.

Author

Fujinami S, Takeda K, Onodera T, Satoh K, Sano M, Narumi I, and Ito M

Abstract

The potassium-dependent alkaliphilic Bacillus sp. strain TS-2 was isolated from the mashed extract of a jumping spider, and its draft genome sequence was obtained. Comparative genomic analysis with a previously sequenced sodium-dependent alkaliphilic Bacillus species may reveal potassium-dependent alkaline adaptation mechanisms., (Copyright © 2014 Fujinami et al.)

Published

2014

50. Draft Genome Sequence of Sodium-Independent Alkaliphilic Microbacterium sp. Strain TS-1.

Author

Fujinami S, Takeda K, Onodera T, Satoh K, Sano M, Narumi I, and Ito M

Abstract

Alkaliphilic Microbacterium sp. strain TS-1, newly isolated from the jumping spider, showed Na(+)-independent growth and motility. Here, we report the draft genome sequence of this bacterium, which may provide beneficial information for Na(+)-independent alkaline adaptation mechanisms.

Published

2013