Masataka Goto scite author profile

The reaction conditions for (,-CD production by a purified CGTase from Brevibacterium sp. No. 9605 were investigated. The optimum pH and temperature for (,-CD formation were 7.0 and 50°C, respectively. The addition of calcium ion increased heat stability of the CGTase and the CDs formation was affected by the concentration of calcium ion. In the presence of ethanol, the yield of (,-CD from soluble starch was increased.

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Transcriptional Downregulation of a Type III Secretion System under Reducing Conditions in Bordetella pertussis

Goto

Hanawa

Abe

et al. 2020

J Bacteriol

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Bordetella pertussis uses a type III secretion system (T3SS) to inject virulence proteins into host cells. Although the B. pertussis T3SS was presumed to be involved in host colonization, the efficient secretion of type III secreted proteins from B. pertussis has not been observed. To investigate the roles of type III secreted proteins during infection, we attempted to optimize culture conditions for the production and secretion of a type III secreted protein, BteA, in B. pertussis. We observed that B. pertussis efficiently secretes BteA in ascorbic acid-depleted (AsA-) medium. When L2 cells, a rat lung epithelial cell line, were infected with B. pertussis cultured in the AsA- medium, BteA-dependent cytotoxicity was observed. We also performed an immunofluorescence assay of L2 cells infected with B. pertussis. The clear fluorescence signals of Bsp22, a needle structure of T3SS, were detected on the bacterial surface of B. pertussis cultured in the AsA- medium. Since ascorbic acid is known as a reducing agent, we cultured B. pertussis in liquid medium containing other reducing agents such as 2-mercaptoethanol and dithioerythritol. Under these reducing conditions, the production of type III secreted proteins was repressed. These results suggest that in B. pertussis, the production and secretion of type III secreted proteins are downregulated under reducing conditions. IMPORTANCE The type III secretion system (T3SS) of Bordetella pertussis forms a needle-like structure that protrudes from the bacterial cell surface. B. pertussis uses T3SS to translocate virulence proteins called effectors into host cells. The culture conditions for effector production in B. pertussis have not been investigated. We attempted to optimize culture medium compositions for producing and secreting type III secreted proteins. We found that B. pertussis secretes type III secreted proteins in reducing agent-deprived liquid medium, and that BteA-secreting B. pertussis provokes cytotoxicity against cultured mammalian cells. These results suggest that redox signaling is involved in the regulation of B. pertussis T3SS.

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Whole-Genome Analysis of Bordetella pertussis MT27 Isolates from School-Associated Outbreaks: Single-Nucleotide Polymorphism Diversity and Threshold of the Outbreak Strains

et al. 2023

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Bcr4 Is a Chaperone for the Inner Rod Protein in the Bordetella Type III Secretion System

et al. 2022

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The type III secretion system (T3SS) is a needle-like complex that projects outward from bacterial cells. Bordetella bronchiseptica uses the T3SS to inject virulence proteins into host cells. Our previous study reported that a protein named Bcr4 is essential for the secretion of virulence proteins from B. bronchiseptica bacterial cells and delivery through the T3SS.

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Bcr4 is a Chaperone for the Inner Rod Protein in the Bordetella Type III Secretion System

Goto

Abe

Hanawa

et al. 2021

Preprint

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Bordetella bronchiseptica injects virulence proteins called effectors into host cells via a type III secretion system (T3SS) conserved among many Gram-negative bacteria. Small proteins called chaperones are required for stabilizing some T3SS components or localizing them to the T3SS machinery. In a previous study, we identified a chaperone-like protein named Bcr4 that regulates T3SS activity in B. bronchiseptica. Bcr4 does not show strong sequence similarity to well-studied T3SS proteins of other bacteria, and its function remains to be elucidated. Here, we investigated the mechanism by which Bcr4 controls T3SS activity. A pull-down assay revealed that Bcr4 interacts with BscI, based on its homology to other bacterial proteins, to be an inner rod protein of the T3SS machinery. A pull-down assay using truncated Bcr4 derivatives and secretion profiles of B. bronchiseptica producing truncated Bcr4 derivatives showed that the Bcr4 C-terminal region is necessary to interact with BscI and to activate the T3SS. Moreover, the deletion of BscI abolished the secretion of type III secreted proteins from B. bronchiseptica and the translocation of a cytotoxic effector into cultured mammalian cells. Finally, we showed that BscI is unstable in the absence of Bcr4. These results suggest that Bcr4 supports the construction of the T3SS machinery by stabilizing BscI. This is the first demonstration of a chaperone for the T3SS inner rod protein among the virulence bacteria possessing the T3SS.

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Masataka Goto

Reaction Conditions for the Production ofγ-Cyclodextrin by Cyclodextrin Glucanotransferase fromBrevibacteriumsp. No. 9605

Transcriptional Downregulation of a Type III Secretion System under Reducing Conditions in Bordetella pertussis

Whole-Genome Analysis of Bordetella pertussis MT27 Isolates from School-Associated Outbreaks: Single-Nucleotide Polymorphism Diversity and Threshold of the Outbreak Strains

Bcr4 Is a Chaperone for the Inner Rod Protein in the Bordetella Type III Secretion System

Bcr4 is a Chaperone for the Inner Rod Protein in the Bordetella Type III Secretion System

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