MAMPs/PAMPs - elicitors of innate immunity in plants

MAMPs/PAMPs - elicitors of innate immunity in plants: chapter 11

Research output: Chapter in Book/Report/Conference proceeding › Book chapter › Research

Standard

MAMPs/PAMPs - elicitors of innate immunity in plants : chapter 11. / Erbs, Gitte; Newman, Mari-Anne.

Plant pathogenic bacteria: genomics and molecular biology. ed. / Robert W. Jackson. Norfolk : Caister Academic Press, 2009. p. 227-240.

Research output: Chapter in Book/Report/Conference proceeding › Book chapter › Research

Harvard

Erbs, G & Newman, M-A 2009, MAMPs/PAMPs - elicitors of innate immunity in plants: chapter 11. in RW Jackson (ed.), Plant pathogenic bacteria: genomics and molecular biology. Caister Academic Press, Norfolk, pp. 227-240.

APA

Erbs, G., & Newman, M-A. (2009). MAMPs/PAMPs - elicitors of innate immunity in plants: chapter 11. In R. W. Jackson (Ed.), Plant pathogenic bacteria: genomics and molecular biology (pp. 227-240). Caister Academic Press.

Vancouver

Erbs G, Newman M-A. MAMPs/PAMPs - elicitors of innate immunity in plants: chapter 11. In Jackson RW, editor, Plant pathogenic bacteria: genomics and molecular biology. Norfolk: Caister Academic Press. 2009. p. 227-240

Author

Erbs, Gitte ; Newman, Mari-Anne. / MAMPs/PAMPs - elicitors of innate immunity in plants : chapter 11. Plant pathogenic bacteria: genomics and molecular biology. editor / Robert W. Jackson. Norfolk : Caister Academic Press, 2009. pp. 227-240

Bibtex

@inbook{6c0d0f00a1c411ddb6ae000ea68e967b,

title = "MAMPs/PAMPs - elicitors of innate immunity in plants: chapter 11",

abstract = "Plants perceive several general elicitors from both host and non-host pathogens. These elicitors are essential structures for pathogen survival and are for that reason conserved among pathogens. These conserved microbe-specific molecules, also referred to as Microbe or Pathogen Associated Molecular Patterns (MAMPs or PAMPs), are recognised by the plant innate immune systems Pattern Recognition Receptors (PRRs). General bacterial elicitors, like lipopolysaccharides (LPS), flagellin (Flg), elongation factor Tu (EF-Tu), cold shock protein (CSP), peptidoglycan (PGN) and the enzyme superoxide dismutase (SodM) are known to act as MAMPs and induce immune responses in plants or plant cells (G{\'o}mez-G{\'o}mez and Boller, 2000; Erbs and Newman, 2003; Felix and Boller, 2003; Kunze et al., 2004; Watt et al., 2006, Gust et al., 2007; Erbs et al., unpublished). The corresponding PRRs for some of these bacterial elicitors have, in recent years, been identified. Here, the current knowledge regarding bacterial elicitors of innate immunity in plants is presented",

author = "Gitte Erbs and Mari-Anne Newman",

year = "2009",

language = "English",

isbn = "978-1-904455-37-0",

pages = "227--240",

editor = "Jackson, {Robert W.}",

booktitle = "Plant pathogenic bacteria",

publisher = "Caister Academic Press",

}

RIS

TY - CHAP

T1 - MAMPs/PAMPs - elicitors of innate immunity in plants

T2 - chapter 11

AU - Erbs, Gitte

AU - Newman, Mari-Anne

PY - 2009

Y1 - 2009

N2 - Plants perceive several general elicitors from both host and non-host pathogens. These elicitors are essential structures for pathogen survival and are for that reason conserved among pathogens. These conserved microbe-specific molecules, also referred to as Microbe or Pathogen Associated Molecular Patterns (MAMPs or PAMPs), are recognised by the plant innate immune systems Pattern Recognition Receptors (PRRs). General bacterial elicitors, like lipopolysaccharides (LPS), flagellin (Flg), elongation factor Tu (EF-Tu), cold shock protein (CSP), peptidoglycan (PGN) and the enzyme superoxide dismutase (SodM) are known to act as MAMPs and induce immune responses in plants or plant cells (Gómez-Gómez and Boller, 2000; Erbs and Newman, 2003; Felix and Boller, 2003; Kunze et al., 2004; Watt et al., 2006, Gust et al., 2007; Erbs et al., unpublished). The corresponding PRRs for some of these bacterial elicitors have, in recent years, been identified. Here, the current knowledge regarding bacterial elicitors of innate immunity in plants is presented

AB - Plants perceive several general elicitors from both host and non-host pathogens. These elicitors are essential structures for pathogen survival and are for that reason conserved among pathogens. These conserved microbe-specific molecules, also referred to as Microbe or Pathogen Associated Molecular Patterns (MAMPs or PAMPs), are recognised by the plant innate immune systems Pattern Recognition Receptors (PRRs). General bacterial elicitors, like lipopolysaccharides (LPS), flagellin (Flg), elongation factor Tu (EF-Tu), cold shock protein (CSP), peptidoglycan (PGN) and the enzyme superoxide dismutase (SodM) are known to act as MAMPs and induce immune responses in plants or plant cells (Gómez-Gómez and Boller, 2000; Erbs and Newman, 2003; Felix and Boller, 2003; Kunze et al., 2004; Watt et al., 2006, Gust et al., 2007; Erbs et al., unpublished). The corresponding PRRs for some of these bacterial elicitors have, in recent years, been identified. Here, the current knowledge regarding bacterial elicitors of innate immunity in plants is presented

M3 - Book chapter

SN - 978-1-904455-37-0

SP - 227

EP - 240

BT - Plant pathogenic bacteria

A2 - Jackson, Robert W.

PB - Caister Academic Press

CY - Norfolk

ER -

ID: 8116206