Priming, induction and modulation of plant defence responses by bacterial lipopolysaccharides

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Priming, induction and modulation of plant defence responses by bacterial lipopolysaccharides. / Newman, Mari-Anne; Dow, J. Maxwell; Molinaro, Antonio; Parrilli, Michelangelo.

In: Innate Immunity, Vol. 13, No. 2, 2007, p. 69-84.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Newman, M-A, Dow, JM, Molinaro, A & Parrilli, M 2007, 'Priming, induction and modulation of plant defence responses by bacterial lipopolysaccharides', Innate Immunity, vol. 13, no. 2, pp. 69-84. https://doi.org/10.1177/0968051907079399

APA

Newman, M-A., Dow, J. M., Molinaro, A., & Parrilli, M. (2007). Priming, induction and modulation of plant defence responses by bacterial lipopolysaccharides. Innate Immunity, 13(2), 69-84. https://doi.org/10.1177/0968051907079399

Vancouver

Newman M-A, Dow JM, Molinaro A, Parrilli M. Priming, induction and modulation of plant defence responses by bacterial lipopolysaccharides. Innate Immunity. 2007;13(2):69-84. https://doi.org/10.1177/0968051907079399

Author

Newman, Mari-Anne ; Dow, J. Maxwell ; Molinaro, Antonio ; Parrilli, Michelangelo. / Priming, induction and modulation of plant defence responses by bacterial lipopolysaccharides. In: Innate Immunity. 2007 ; Vol. 13, No. 2. pp. 69-84.

Bibtex

@article{782f8de0a1c311ddb6ae000ea68e967b,
title = "Priming, induction and modulation of plant defence responses by bacterial lipopolysaccharides",
abstract = "Bacterial lipopolysaccharides (LPSs) have multiple roles in plant-microbe interactions. LPS contributes to the low permeability of the outer membrane, which acts as a barrier to protect bacteria from plant-derived antimicrobial substances. Conversely, perception of LPS by plant cells can lead to the triggering of defence responses or to the priming of the plant to respond more rapidly and/or to a greater degree to subsequent pathogen challenge. LPS from symbiotic bacteria can have quite different effects on plants to those of pathogens. Some details are emerging of the structures within LPS that are responsible for induction of these different plant responses. The lipid A moiety is not solely responsible for all of the effects of LPS in plants; core oligosaccharide and O-antigen components can elicit specific responses. Here, we review the effects of LPS in induction of defence-related responses in plants, the structures within LPS responsible for eliciting these effects and discuss the possible nature of the (as yet unidentified) LPS receptors in plants.",
keywords = "Former LIFE faculty, pathogen-associated molecular pattern, plant defence induction, plant defence priming, lipopolysaccharide structure and plant recognition",
author = "Mari-Anne Newman and Dow, {J. Maxwell} and Antonio Molinaro and Michelangelo Parrilli",
year = "2007",
doi = "10.1177/0968051907079399",
language = "English",
volume = "13",
pages = "69--84",
journal = "Innate Immunity",
issn = "1753-4259",
publisher = "SAGE Publications",
number = "2",

}

RIS

TY - JOUR

T1 - Priming, induction and modulation of plant defence responses by bacterial lipopolysaccharides

AU - Newman, Mari-Anne

AU - Dow, J. Maxwell

AU - Molinaro, Antonio

AU - Parrilli, Michelangelo

PY - 2007

Y1 - 2007

N2 - Bacterial lipopolysaccharides (LPSs) have multiple roles in plant-microbe interactions. LPS contributes to the low permeability of the outer membrane, which acts as a barrier to protect bacteria from plant-derived antimicrobial substances. Conversely, perception of LPS by plant cells can lead to the triggering of defence responses or to the priming of the plant to respond more rapidly and/or to a greater degree to subsequent pathogen challenge. LPS from symbiotic bacteria can have quite different effects on plants to those of pathogens. Some details are emerging of the structures within LPS that are responsible for induction of these different plant responses. The lipid A moiety is not solely responsible for all of the effects of LPS in plants; core oligosaccharide and O-antigen components can elicit specific responses. Here, we review the effects of LPS in induction of defence-related responses in plants, the structures within LPS responsible for eliciting these effects and discuss the possible nature of the (as yet unidentified) LPS receptors in plants.

AB - Bacterial lipopolysaccharides (LPSs) have multiple roles in plant-microbe interactions. LPS contributes to the low permeability of the outer membrane, which acts as a barrier to protect bacteria from plant-derived antimicrobial substances. Conversely, perception of LPS by plant cells can lead to the triggering of defence responses or to the priming of the plant to respond more rapidly and/or to a greater degree to subsequent pathogen challenge. LPS from symbiotic bacteria can have quite different effects on plants to those of pathogens. Some details are emerging of the structures within LPS that are responsible for induction of these different plant responses. The lipid A moiety is not solely responsible for all of the effects of LPS in plants; core oligosaccharide and O-antigen components can elicit specific responses. Here, we review the effects of LPS in induction of defence-related responses in plants, the structures within LPS responsible for eliciting these effects and discuss the possible nature of the (as yet unidentified) LPS receptors in plants.

KW - Former LIFE faculty

KW - pathogen-associated molecular pattern

KW - plant defence induction

KW - plant defence priming

KW - lipopolysaccharide structure and plant recognition

U2 - 10.1177/0968051907079399

DO - 10.1177/0968051907079399

M3 - Journal article

VL - 13

SP - 69

EP - 84

JO - Innate Immunity

JF - Innate Immunity

SN - 1753-4259

IS - 2

ER -

ID: 8095443