Plant LysM proteins: modules mediating symbiosis and immunity

Trends in Plant Science
Andrea A GustThorsten Nürnberger

Abstract

Microbial glycans, such as bacterial peptidoglycans, fungal chitin or rhizobacterial Nod factors (NFs), are important signatures for plant immune activation or for the establishment of beneficial symbioses. Plant lysin motif (LysM) domain proteins serve as modules mediating recognition of these different N-acetylglucosamine (GlcNAc)-containing ligands, suggesting that this class of proteins evolved from an ancient sensor for GlcNAc. During early plant evolution, these glycans probably served as immunogenic patterns activating LysM protein receptor-mediated plant immunity and stopping microbial infection. The biochemical potential of plant LysM proteins for sensing microbial GlcNAc-containing glycans has probably since favored the evolution of receptors facilitating microbial infection and symbiosis.

References

Oct 1, 1996·The Plant Cell·S R Long
Nov 18, 1997·Cell·R Medzhitov, C A Janeway
Mar 8, 2000·Microbiology and Molecular Biology Reviews : MMBR·X PerretW J Broughton
Mar 7, 2001·Cellular and Molecular Life Sciences : CMLS·D A DayL Rosendahl
Jul 19, 2001·Nature·J L Dangl, J D Jones
Sep 19, 2002·Molecular Plant-microbe Interactions : MPMI·Bing ZhangGary Stacey
Oct 10, 2003·Nature·Martin Parniske, J Allan Downie
Oct 16, 2003·Molecular Plant-microbe Interactions : MPMI·Joachim GoedhartTheodorus W J Gadella
Apr 24, 2004·The Plant Cell·Shin-Han ShiuWen-Hsiung Li
Jun 18, 2004·Immunological Reviews·Thorsten NürnbergerLizelle Piater
Jun 16, 2005·Current Opinion in Plant Biology·René GeurtsTon Bisseling
Feb 25, 2006·Cell·Stephen T ChisholmBrian J Staskawicz
Jul 11, 2006·Proceedings of the National Academy of Sciences of the United States of America·Hanae KakuNaoto Shibuya
Oct 7, 2006·Molecular Plant-microbe Interactions : MPMI·UNKNOWN Prime-A-Plant GroupBrigitte Mauch-Mani
Apr 24, 2007·Plant Physiology·Xue-Cheng ZhangGary Stacey
Jun 26, 2007·Plant Physiology·Patrick SmitTon Bisseling
Sep 1, 2007·The Journal of Biological Chemistry·Andrea A GustThorsten Nürnberger
Nov 29, 2007·Proceedings of the National Academy of Sciences of the United States of America·Ayako MiyaNaoto Shibuya
Dec 18, 2007·The Journal of Biological Chemistry·Takayuki OhnumaEtsuko Katoh
Jan 22, 2008·Current Opinion in Immunology·Cyril Zipfel
Apr 24, 2008·Molecular Microbiology·Girbe BuistOscar P Kuipers
May 1, 2008·Annual Review of Plant Biology·Giles E D Oldroyd, J Allan Downie
Aug 6, 2008·The Plant Journal : for Cell and Molecular Biology·Luis CárdenasCarmen Quinto
Sep 17, 2008·Nature Reviews. Microbiology·Martin Parniske
Nov 7, 2008·Molecular Plant-microbe Interactions : MPMI·Vladimir ZhukovJens Stougaard
Mar 3, 2009·Current Biology : CB·Selena Gimenez-IbanezJohn P Rathjen
Mar 21, 2009·Trends in Microbiology·Ronnie de Jonge, Bart P H J Thomma
Apr 30, 2009·Annual Review of Phytopathology·Ioannis Stergiopoulos, Pierre J G M de Wit
Aug 5, 2009·BMC Evolutionary Biology·Xue-Cheng ZhangGary Stacey
Aug 26, 2009·Plant Signaling & Behavior·Marcello Iriti, Franco Faoro

❮ Previous
Next ❯

Citations

Mar 22, 2014·Applied Microbiology and Biotechnology·Ganesh Ram R VisweswaranGirbe Buist
Jan 10, 2013·Annual Review of Immunology·Steven J Van Dyken, Richard M Locksley
Jul 30, 2014·Current Opinion in Plant Biology·Andrea A Gust, Georg Felix
Mar 27, 2013·Developmental and Comparative Immunology·Xiu-Zhen ShiJin-Xing Wang
Jul 16, 2013·Trends in Plant Science·Clare Gough, Christophe Jacquet
May 23, 2015·Molecules : a Journal of Synthetic Chemistry and Natural Product Chemistry·Kristof De Schutter, Els J M Van Damme
Dec 2, 2015·The New Phytologist·Yu DuJohana C Misas Villamil
Jan 8, 2013·The FEBS Journal·Verena Seidl-SeibothChristian P Kubicek
Aug 27, 2014·Chembiochem : a European Journal of Chemical Biology·Kasper K SørensenKnud J Jensen
Oct 6, 2015·Annual Review of Cell and Developmental Biology·Ruth Le FevreSebastian Schornack
Jun 5, 2015·Current Opinion in Plant Biology·Enrico Gobbato
Dec 30, 2014·The New Phytologist·Gunther DoehlemannJane E Parker
Nov 5, 2014·The New Phytologist·Meritxell Antolín-LloveraMartin Parniske
Nov 19, 2013·Trends in Plant Science·Thomas W H LiebrandMatthieu H A J Joosten
Jun 20, 2015·Plant Science : an International Journal of Experimental Plant Biology·Attila Fehér, Dézi Bianka Lajkó
Dec 12, 2012·Plant Signaling & Behavior·Kiwamu TanakaGary Stacey
May 21, 2014·Current Opinion in Plant Biology·Zhifu HanJijie Chai
May 20, 2014·Current Opinion in Plant Biology·Hannah BöhmThorsten Nürnberger
Jan 16, 2015·Current Genetics·Gunseli Bayram AkcapinarVerena Seidl-Seiboth
Jan 19, 2015·International Journal of Medical Microbiology : IJMM·Ute BertscheAndrea A Gust
Oct 30, 2014·Frontiers in Plant Science·Yoji KawanoKo Shimamoto
Aug 29, 2014·Frontiers in Plant Science·Nausicaä Lannoo, Els J M Van Damme
Nov 20, 2014·Frontiers in Plant Science·Sophie TrouvelotMarielle Adrian
Aug 29, 2014·Functional & Integrative Genomics·Zhiyong ZhangQinglian Wang
Apr 7, 2016·Molecular Plant-microbe Interactions : MPMI·Fabien LabroussaaRodrigo P P Almeida

❮ Previous
Next ❯

Related Concepts

Related Feeds

Bacterial Cell Wall Structure

Bacterial cell walls are made of peptidoglycan (also called murein), which is made from polysaccharide chains cross-linked by unusual peptides containing D-amino acids. Here is the latest research on bacterial cell wall structures.

Bacterial Cell Wall Structure (ASM)

Bacterial cell walls are made of peptidoglycan (also called murein), which is made from polysaccharide chains cross-linked by unusual peptides containing D-amino acids. Here is the latest research on bacterial cell wall structures.