Lipopolysaccharide and Its Interactions with Plants
作者: Gitte Erbs , Mari-Anne Newman
DOI: 10.1007/978-3-7091-0733-1_14
关键词: Microorganism 、 Innate immune system 、 Lipopolysaccharide 、 Pathogen 、 Extracellular 、 Multicellular organism 、 Cell wall 、 Cell biology 、 Biology 、 Respiratory burst
摘要: In an environment that is rich in potentially pathogenic microorganisms, the survival of higher eukaryotic organisms depends on efficient pathogen sensing and rapidly mounted defence responses. Such protective mechanisms are found all multicellular collectively referred to as innate immunity. Innate immunity first line against invading microorganisms vertebrates only invertebrates plants [1]. Plants interact with a variety like insects mammals, they respond broad range microbial molecules. The recognition non-self induces plant responses such oxidative burst, nitric oxide (NO) generation, extracellular pH increase, cell wall strengthening pathogenesis-related (PR) protein accumulation, leading basal resistance or Recognition non-self, pathogen, crucial for effective response.
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sci-hub.se 参考文章(84)
Lourdes Gómez-Gómez, Thomas Boller, FLS2: an LRR receptor-like kinase involved in the perception of the bacterial elicitor flagellin in Arabidopsis. Molecular Cell. ,vol. 5, pp. 1003- 1011 ,(2000) , 10.1016/S1097-2765(00)80265-8
Anthony P Moran, Otto Holst, Patrick Brennan, Mark von Itzstein, None, Microbial Glycobiology: Structures, Relevance and Applications ,(2009)
R. Schmidt, The Arabidopsis genome Vortraege fuer Pflanzenzuechtung. ,vol. 48, pp. 228- 237 ,(2000)
Otto Holst, Antonio Molinaro, Core region and lipid A components of lipopolysaccharides Microbial Glycobiology#R##N#Structures, Relevance and Applications. pp. 29- 55 ,(2010) , 10.1016/B978-0-12-374546-0.00003-1
Prasad Rallabhandi, Agnes Awomoyi, Karen E. Thomas, Armelle Phalipon, Yukari Fujimoto, Koichi Fukase, Shoichi Kusumoto, Nilofer Qureshi, Marcelo B. Sztein, Stefanie N. Vogel, Differential activation of human TLR4 by Escherichia coli and Shigella flexneri 2a lipopolysaccharide: combined effects of lipid A acylation state and TLR4 polymorphisms on signaling. Journal of Immunology. ,vol. 180, pp. 1139- 1147 ,(2008) , 10.4049/JIMMUNOL.180.2.1139
Ruslan Medzhitov, Paula Preston-Hurlburt, Charles A. Janeway, A human homologue of the Drosophila Toll protein signals activation of adaptive immunity Nature. ,vol. 388, pp. 394- 397 ,(1997) , 10.1038/41131
Tatiana E. Mishina, Jürgen Zeier, Pathogen-associated molecular pattern recognition rather than development of tissue necrosis contributes to bacterial induction of systemic acquired resistance in Arabidopsis Plant Journal. ,vol. 50, pp. 500- 513 ,(2007) , 10.1111/J.1365-313X.2007.03067.X
C A Dinarello, H Loppnow, H Brade, H D Flad, S Kusumoto, E T Rietschel, I Dürrbaum, IL-1 induction-capacity of defined lipopolysaccharide partial structures. Journal of Immunology. ,vol. 142, pp. 3229- 3238 ,(1989)
Andra B. Schromm, Klaus Brandenburg, Harald Loppnow, Anthony P. Moran, Michel H. J. Koch, Ernst TH. Rietschel, Ulrich Seydel, Biological activities of lipopolysaccharides are determined by the shape of their lipid A portion European Journal of Biochemistry. ,vol. 267, pp. 2008- 2013 ,(2000) , 10.1046/J.1432-1327.2000.01204.X
D. Zeidler, U. Zahringer, I. Gerber, I. Dubery, T. Hartung, W. Bors, P. Hutzler, J. Durner, Innate immunity in Arabidopsis thaliana: lipopolysaccharides activate nitric oxide synthase (NOS) and induce defense genes. Proceedings of the National Academy of Sciences of the United States of America. ,vol. 101, pp. 15811- 15816 ,(2004) , 10.1073/PNAS.0404536101