Bacterial pathogen deploys the iminosugar glycosyrin to manipulate plant glycobiology

Nattapong Sanguankiattichai; Balakumaran Chandrasekar; Yuewen Sheng; Nathan Hardenbrook; Werner W A Tabak; Margit Drapal; Farnusch Kaschani; Clemens Grünwald-Gruber; Daniel Krahn; Pierre Buscaill; Suzuka Yamamoto; Atsushi Kato; Robert Nash; George Fleet; Richard Strasser; Paul D Fraser; Markus Kaiser; Peijun Zhang; Gail M Preston; Renier A L van der Hoorn

doi:10.1126/science.adp2433

Bacterial pathogen deploys the iminosugar glycosyrin to manipulate plant glycobiology

Nattapong Sanguankiattichai, Balakumaran Chandrasekar, Yuewen Sheng, Nathan Hardenbrook, Werner W A Tabak, Margit Drapal, Farnusch Kaschani, Clemens Grünwald-Gruber, Daniel Krahn, Pierre Buscaill, Suzuka Yamamoto, Atsushi Kato, Robert Nash, George Fleet, Richard Strasser, Paul D Fraser, Markus Kaiser, Peijun Zhang, Gail M Preston, Renier A L van der Hoorn

富山大学

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

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The extracellular space (apoplast) in plants is a key battleground during microbial infections. To avoid recognition, the bacterial model phytopathogen Pseudomonas syringae pv. tomato DC3000 produces glycosyrin. Glycosyrin inhibits the plant-secreted β-galactosidase BGAL1, which would otherwise initiate the release of immunogenic peptides from bacterial flagellin. Here, we report the structure, biosynthesis, and multifunctional roles of glycosyrin. High-resolution cryo-electron microscopy and chemical synthesis revealed that glycosyrin is an iminosugar with a five-membered pyrrolidine ring and a hydrated aldehyde that mimics monosaccharides. Glycosyrin biosynthesis was controlled by virulence regulators, and its production is common in bacteria and prevents flagellin recognition and alters the extracellular glycoproteome and metabolome of infected plants. These findings highlight a potentially wider role for glycobiology manipulation by plant pathogens across the plant kingdom.

本文言語	英語
ページ（範囲）	297-303
ページ数	7
ジャーナル	Science
巻	388
号	6744
DOI	https://doi.org/10.1126/science.adp2433
出版ステータス	出版済み - 2025/04/18

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10.1126/science.adp2433

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Sanguankiattichai, N., Chandrasekar, B., Sheng, Y., Hardenbrook, N., Tabak, W. W. A., Drapal, M., Kaschani, F., Grünwald-Gruber, C., Krahn, D., Buscaill, P., Yamamoto, S., Kato, A., Nash, R., Fleet, G., Strasser, R., Fraser, P. D., Kaiser, M., Zhang, P., Preston, G. M., & van der Hoorn, R. A. L. (2025). Bacterial pathogen deploys the iminosugar glycosyrin to manipulate plant glycobiology. Science, 388(6744), 297-303. https://doi.org/10.1126/science.adp2433

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title = "Bacterial pathogen deploys the iminosugar glycosyrin to manipulate plant glycobiology",

abstract = "The extracellular space (apoplast) in plants is a key battleground during microbial infections. To avoid recognition, the bacterial model phytopathogen Pseudomonas syringae pv. tomato DC3000 produces glycosyrin. Glycosyrin inhibits the plant-secreted β-galactosidase BGAL1, which would otherwise initiate the release of immunogenic peptides from bacterial flagellin. Here, we report the structure, biosynthesis, and multifunctional roles of glycosyrin. High-resolution cryo-electron microscopy and chemical synthesis revealed that glycosyrin is an iminosugar with a five-membered pyrrolidine ring and a hydrated aldehyde that mimics monosaccharides. Glycosyrin biosynthesis was controlled by virulence regulators, and its production is common in bacteria and prevents flagellin recognition and alters the extracellular glycoproteome and metabolome of infected plants. These findings highlight a potentially wider role for glycobiology manipulation by plant pathogens across the plant kingdom.",

keywords = "Arabidopsis/microbiology, Bacterial Proteins/chemistry, Cryoelectron Microscopy, Flagellin/metabolism, Glycomics, Metabolome, Plant Diseases/microbiology, Pseudomonas syringae/pathogenicity, Imino Pyranoses/chemistry, Multigene Family",

author = "Nattapong Sanguankiattichai and Balakumaran Chandrasekar and Yuewen Sheng and Nathan Hardenbrook and Tabak, {Werner W A} and Margit Drapal and Farnusch Kaschani and Clemens Gr{\"u}nwald-Gruber and Daniel Krahn and Pierre Buscaill and Suzuka Yamamoto and Atsushi Kato and Robert Nash and George Fleet and Richard Strasser and Fraser, {Paul D} and Markus Kaiser and Peijun Zhang and Preston, {Gail M} and {van der Hoorn}, {Renier A L}",

year = "2025",

month = apr,

day = "18",

doi = "10.1126/science.adp2433",

language = "英語",

volume = "388",

pages = "297--303",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6744",

}

Sanguankiattichai, N, Chandrasekar, B, Sheng, Y, Hardenbrook, N, Tabak, WWA, Drapal, M, Kaschani, F, Grünwald-Gruber, C, Krahn, D, Buscaill, P, Yamamoto, S, Kato, A, Nash, R, Fleet, G, Strasser, R, Fraser, PD, Kaiser, M, Zhang, P, Preston, GM & van der Hoorn, RAL 2025, 'Bacterial pathogen deploys the iminosugar glycosyrin to manipulate plant glycobiology', Science, vol. 388, no. 6744, pp. 297-303. https://doi.org/10.1126/science.adp2433

TY - JOUR

T1 - Bacterial pathogen deploys the iminosugar glycosyrin to manipulate plant glycobiology

AU - Sanguankiattichai, Nattapong

AU - Chandrasekar, Balakumaran

AU - Sheng, Yuewen

AU - Hardenbrook, Nathan

AU - Tabak, Werner W A

AU - Drapal, Margit

AU - Kaschani, Farnusch

AU - Grünwald-Gruber, Clemens

AU - Krahn, Daniel

AU - Buscaill, Pierre

AU - Yamamoto, Suzuka

AU - Kato, Atsushi

AU - Nash, Robert

AU - Fleet, George

AU - Strasser, Richard

AU - Fraser, Paul D

AU - Kaiser, Markus

AU - Zhang, Peijun

AU - Preston, Gail M

AU - van der Hoorn, Renier A L

PY - 2025/4/18

Y1 - 2025/4/18

N2 - The extracellular space (apoplast) in plants is a key battleground during microbial infections. To avoid recognition, the bacterial model phytopathogen Pseudomonas syringae pv. tomato DC3000 produces glycosyrin. Glycosyrin inhibits the plant-secreted β-galactosidase BGAL1, which would otherwise initiate the release of immunogenic peptides from bacterial flagellin. Here, we report the structure, biosynthesis, and multifunctional roles of glycosyrin. High-resolution cryo-electron microscopy and chemical synthesis revealed that glycosyrin is an iminosugar with a five-membered pyrrolidine ring and a hydrated aldehyde that mimics monosaccharides. Glycosyrin biosynthesis was controlled by virulence regulators, and its production is common in bacteria and prevents flagellin recognition and alters the extracellular glycoproteome and metabolome of infected plants. These findings highlight a potentially wider role for glycobiology manipulation by plant pathogens across the plant kingdom.

AB - The extracellular space (apoplast) in plants is a key battleground during microbial infections. To avoid recognition, the bacterial model phytopathogen Pseudomonas syringae pv. tomato DC3000 produces glycosyrin. Glycosyrin inhibits the plant-secreted β-galactosidase BGAL1, which would otherwise initiate the release of immunogenic peptides from bacterial flagellin. Here, we report the structure, biosynthesis, and multifunctional roles of glycosyrin. High-resolution cryo-electron microscopy and chemical synthesis revealed that glycosyrin is an iminosugar with a five-membered pyrrolidine ring and a hydrated aldehyde that mimics monosaccharides. Glycosyrin biosynthesis was controlled by virulence regulators, and its production is common in bacteria and prevents flagellin recognition and alters the extracellular glycoproteome and metabolome of infected plants. These findings highlight a potentially wider role for glycobiology manipulation by plant pathogens across the plant kingdom.

KW - Arabidopsis/microbiology

KW - Bacterial Proteins/chemistry

KW - Cryoelectron Microscopy

KW - Flagellin/metabolism

KW - Glycomics

KW - Metabolome

KW - Plant Diseases/microbiology

KW - Pseudomonas syringae/pathogenicity

KW - Imino Pyranoses/chemistry

KW - Multigene Family

U2 - 10.1126/science.adp2433

DO - 10.1126/science.adp2433

M3 - 学術論文

C2 - 40245141

SN - 0036-8075

VL - 388

SP - 297

EP - 303

JO - Science

JF - Science

IS - 6744

ER -

Bacterial pathogen deploys the iminosugar glycosyrin to manipulate plant glycobiology

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