Shoko Toma scite author profile

Shoko Toma

5Publications

40Citation Statements Received

70Citation Statements Given

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Osaka University, Seitoku University

Publications

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Structural and Functional Comparison of Salmonella Flagellar Filaments Composed of FljB and FliC

et al. 2020

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The bacterial flagellum is a motility organelle consisting of a long helical filament as a propeller and a rotary motor that drives rapid filament rotation to produce thrust. Salmonella enterica serovar Typhimurium has two genes of flagellin, fljB and fliC, for flagellar filament formation and autonomously switches their expression at a frequency of 10−3–10−4 per cell per generation. We report here differences in their structures and motility functions under high-viscosity conditions. A Salmonella strain expressing FljB showed a higher motility than one expressing FliC under high viscosity. To examine the reasons for this motility difference, we carried out structural analyses of the FljB filament by electron cryomicroscopy and found that the structure was nearly identical to that of the FliC filament except for the position and orientation of the outermost domain D3 of flagellin. The density of domain D3 was much lower in FljB than FliC, suggesting that domain D3 of FljB is more flexible and mobile than that of FliC. These differences suggest that domain D3 plays an important role not only in changing antigenicity of the filament but also in optimizing motility function of the filament as a propeller under different conditions.

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Psychological Effects of the Socio Esthetique for Elderly People in Day Care

Toma

Nozawa

Osada

2011

The Proceedings of the Annual Convention of the JPA

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1P008 CryoEM structure of the flagellar filament of Salmonella FljB and implication of its difference from the FliC filament(01A. Protein:Structure,Poster)

2013

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1P018 CryoEM structure of the flagellar filament of Salmonella FljB and implication of its difference from the FliC filament(Protein: Structure,Poster,The 52th Annual Meeting of the Biophysical Society of Japan(BSJ2014))

2014

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We previously repoted that amyloid formation of Ab(25-35) peptide is strongly modified by soluble proteins with electrostatic interactions. An extension of this study was done for providing further insights into interactions between amyloidgenic and other soluble proteins, partly motivated by the question whether the interaction is observed for more pathologically important cases. The results gave some general aspects of the interaction by demonstrating several different modes of the interactions. It was, for example, indicated that distinction between specific and non-specific modes of the interactions are rather ambiguous, and some more important suggestions were also obtained.

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Structural and Functional Comparison of <em>Salmonella </em>Flagellar Filaments Composed of FljB and FliC

Yamaguchi

Toma

Terahara

et al. 2019

Preprint

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The bacterial flagellum is a motility organelle, consisting of a long helical filament as a propeller and a rotary motor that drives rapid filament rotation to produce thrust. Salmonella enterica serovar Typhimurium has two genes of flagellin, fljB and fliC, for flagellar filament formation and autonomously switches their expression at a frequency of 10-3–10-4 per cell per generation. We report here differences in their structures and motility functions under high viscosity conditions. A Salmonella strain expressing FljB showed a higher motility than the one expressing FliC under high viscousity. To examine the reasons for this motility difference, we carried out structural analyses of the FljB filament by electron cryomicroscopy and found that the structure is nearly identical to that of the FliC filament except for the position and orientation of the outermost domain D3 of flagellin. The density of domain D3 was much lower in FljB than FliC, suggesting that domain D3 of FljB is more flexible and mobile than that of FliC. These differences suggest that domain D3 plays an important role not only in changing antigenicity of the filament but also in optimizing motility function of the filament as a propeller under different conditions.

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Shoko Toma

Structural and Functional Comparison of Salmonella Flagellar Filaments Composed of FljB and FliC

Psychological Effects of the Socio Esthetique for Elderly People in Day Care

1P008 CryoEM structure of the flagellar filament of Salmonella FljB and implication of its difference from the FliC filament(01A. Protein:Structure,Poster)

1P018 CryoEM structure of the flagellar filament of Salmonella FljB and implication of its difference from the FliC filament(Protein: Structure,Poster,The 52th Annual Meeting of the Biophysical Society of Japan(BSJ2014))

Structural and Functional Comparison of <em>Salmonella </em>Flagellar Filaments Composed of FljB and FliC

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