Your search keyword '"T, OSONO"' showing total 6 results

1. Functionally explicit partitioning of plant β-diversity reveal soil fungal assembly in the subarctic tundra.

Author

Masumoto S, Kitagawa R, Nishizawa K, Kaneko R, Osono T, Hasegawa M, Matsuoka S, Uchida M, and Mori AS

Subjects

Arctic Regions, Biodiversity, Fungi genetics, Tundra, Ecosystem, Soil

Abstract

Metabarcoding technologies for soil fungal DNA pools have enabled to capture the diversity of fungal community and the agreement of their β-diversity with plant β-diversity. However, processes underlying the synchrony of the aboveground-belowground biodiversity is still unclear. By using partitioning methods for plant β-diversity, this study explored the process driving synchrony in tundra ecosystems, in which drastic vegetation shifts are observed with climate warming. Our methods based on Baselga's partitioning enabled the division of plant β-diversity into two phenomena and three functional components. Correlation of fungal β-diversity with the components of plant β-diversity showed that the spatial replacement of fungi was promoted by plant species turnover, in particular, plant species turnover with functional exchange. In addition, spatial variety of graminoid or forbs species, rather than shrubs, enhanced fungal β-diversity. These results suggest the importance of small-scale factors such as plant-fungal interactions or local environments modified by plants for the fungal community assemblage. The process-based understanding of community dynamics of plants and fungi allows us to predict the ongoing shrub encroachment in the Arctic region, which could weaken the aboveground-belowground synchrony., (© The Author(s) 2021. Published by Oxford University Press on behalf of FEMS. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

2. Two-years of investigation revealed the inconsistency of seasonal dynamics of an ectomycorrhizal fungal community in Japanese cool-temperate forest across years.

Author

Sugiyama Y, Matsuoka S, and Osono T

Subjects

Arctic Regions, Biodiversity, Forests, Japan, Seasons, Soil Microbiology, Trees, Mycobiome, Mycorrhizae

Abstract

Ectomycorrhizal (ECM) fungal communities show temporal dynamics. Such dynamics have been mainly assessed with 1 year of investigations and have been related to the seasonal changes in environment. Recent study in sub-tropical region has revealed that stochastic temporal-based process can affect ECM fungal community, making the community of the same season different between years. The different community structures across years have also been observed in the Arctic region with a grass host. Nevertheless, in temperate zones, the effect of temporal-based processes and the consistency of seasonal dynamics have never been investigated. We conducted a 2-year root sampling in a cool temperate Fagus crenata forest to test whether the temporal variation of ECM fungal community composition could be explained by season. The explanation powers of temporal distance and environmental factors for the temporal dynamics of ECM fungal community were simultaneously evaluated. The variation in community structure was significantly explained by year but not by season, indicating that seasonal community structure differed between years. This difference in the community structure across years was partly explained by temporal factors. Our study implies that the temporal dynamics of ECM fungal communities in temperate forests are affected by temporal-based factors and can vary across years., (© FEMS 2020.)

Published

2020

3. Temporal distance decay of similarity of ectomycorrhizal fungal community composition in a subtropical evergreen forest in Japan.

Author

Matsuoka S, Kawaguchi E, and Osono T

Subjects

Biodiversity, Climate, Forests, Japan, Seasons, Trees classification, Fagaceae microbiology, Mycorrhizae classification, Plant Roots microbiology, Trees microbiology

Abstract

Community compositions of ectomycorrhizal (ECM) fungi are known to show spatial distance decay of similarity, which arises from both deterministic niche-based processes and stochastic spatial-based processes (e.g. dispersal limitation). Recent studies have highlighted the importance of incorporating the spatial-based processes in the study of community ecology of ECM fungi. However, few studies have investigated the temporal distance decay of similarity of ECM fungal communities. More specifically, the role of stochastic temporal-based processes, which could drive the temporal distance decay of similarity independently of niche-based processes, in the temporal variation of the communities remains unclear. Here we investigated ECM fungi associated with roots of Castanopsis sieboldii at 3-month intervals over a 2-year period. We found that dissimilarity of the ECM fungal community composition was significantly correlated with temporal distance but not with environmental distance among sampling dates. Both climatic and temporal variables significantly explained the temporal variation of the community composition. These results suggest that temporal variations of ECM fungi can be affected not only by niche-based processes but also by temporal-based processes. Our findings imply that priority effects may play important roles in the temporal turnover of ECM fungal community at the site., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

4. Disentangling the relative importance of host tree community, abiotic environment and spatial factors on ectomycorrhizal fungal assemblages along an elevation gradient.

Author

Matsuoka S, Mori AS, Kawaguchi E, Hobara S, and Osono T

Subjects

Altitude, Biodiversity, Japan, Mycorrhizae isolation & purification, Mycorrhizae physiology, Trees classification, Trees physiology, Mycorrhizae classification, Soil Microbiology, Trees microbiology

Abstract

Recent studies have shown that changes in community compositions of ectomycorrhizal (ECM) fungi along elevation gradients are mainly affected by changes in host tree communities and/or in abiotic environments. However, few studies have taken the effects of processes related to fungal dispersal (i.e. spatial processes) into account and distinguished the effects of host community, abiotic environment and spatial processes on community composition along elevation gradients. This has left unclear the relative importance of these factors in structuring the ECM community assemblages. To address this, we investigated the community composition of ECM fungi along an elevation gradient in northern Japan with 454 meta-barcoding. We found that the community composition of ECM fungi changed along the elevation and that all three factors jointly affected the compositional changes. We separated the magnitude of importance of the three factors in structuring ECM fungal communities and found that most of the spatial variation in ECM fungal community was explained by host communities and abiotic environments. Our results suggest that while biotic and/or abiotic environments can be important factors in determining the ECM fungal community composition along an elevation gradient, spatial processes may also be a primary determinant., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

5. Hydrogen peroxide resistance of Acetobacter pasteurianus NBRC3283 and its relationship to acetic acid fermentation.

Author

Okamoto-Kainuma A, Ehata Y, Ikeda M, Osono T, Ishikawa M, Kaga T, and Koizumi Y

Subjects

Acetobacter genetics, Amino Acid Sequence, Catalase metabolism, Cloning, Molecular, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, Microbial Viability drug effects, Molecular Sequence Data, Mutation genetics, Repressor Proteins chemistry, Repressor Proteins genetics, Sequence Alignment, Sequence Homology, Amino Acid, Acetic Acid metabolism, Acetobacter drug effects, Acetobacter metabolism, Fermentation drug effects, Hydrogen Peroxide pharmacology

Abstract

The bacterium Acetobacter pasteurianus can ferment acetic acid, a process that proceeds at the risk of oxidative stress. To understand the stress response, we investigated catalase and OxyR in A. pasteurianus NBRC3283. This strain expresses only a KatE homolog as catalase, which is monofunctional and growth dependent. Disruption of the oxyR gene increased KatE activity, but both the katE and oxyR mutant strains showed greater sensitivity to hydrogen peroxide as compared to the parental strain. These mutant strains showed growth similar to the parental strain in the ethanol oxidizing phase, but their growth was delayed when cultured in the presence of acetic acid and of glycerol and during the acetic acid peroxidation phase. The results suggest that A. pasteurianus cells show different oxidative stress responses between the metabolism via the membrane oxidizing pathway and that via the general aerobic pathway during acetic acid fermentation.

Published

2008

6. Pharmacokinetics of macrolides, lincosamides and streptogramins.

Author

Osono T and Umezawa H

Subjects

Animals, Anti-Bacterial Agents pharmacology, Bacteria drug effects, Humans, Kinetics, Leucomycins blood, Leucomycins metabolism, Lincosamides, Male, Mice, Species Specificity, Staphylococcus aureus drug effects, Structure-Activity Relationship, Tissue Distribution, Virginiamycin metabolism, Anti-Bacterial Agents metabolism, Macrolides

Abstract

Macrolide antibiotics are known to be effective in spite of their low blood levels. This results in an exception to the customary rule of antibiotics evaluation, of judging the in-vivo effect of an antibiotic in terms of blood levels and MICs. Most efforts to improve blood levels of macrolides have been unsuccessful because of hepatic toxicity. Intravenous administration of macrolides has been difficult because of the frequent incidence of severe side effects. In the present paper, the in-vivo distribution characteristics and metabolic features of macrolides are summarized with some mention of those of lincosamides and streptogramins. Results show that macrolides are intrinsically toxic to man as a protein synthesis inhibitor, but that they are easily metabolized and destroyed in the body. In the course of this destruction, minute amount of a macrolide and its active metabolites distribute selectively in some tissues owing to their higher tissue affinity. Thus a delicate balance between tissue affinity and metabolism makes effective and safe oral therapy with minimum side activities.

Published

1985