Journal ArticleDOI
Understanding the functions of plant disease resistance proteins.
TLDR
Many disease resistance (R) proteins of plants detect the presence of disease-causing bacteria, viruses, or fungi by recognizing specific pathogen effector molecules that are produced during the infection process.Abstract:
■ Abstract Many disease resistance (R) proteins of plants detect the presence of disease-causing bacteria, viruses, or fungi by recognizing specific pathogen effector molecules that are produced during the infection process. Effectors are often pathogen proteins that probably evolved to subvert various host processes for promotion of the pathogen life cycle. Five classes of effector-specific R proteins are known, and their sequences suggest roles in both effector recognition and signal transduction. Although some R proteins may act as primary receptors of pathogen effector proteins, most appear to play indirect roles in this process. The functions of various R proteins require phosphorylation, protein degradation, or specific localization within the host cell. Some signaling components are shared by many R gene pathways whereas others appear to be pathway specific. New technologies arising from the genomics and proteomics revolution will greatly expand our ability to investigate the role of R proteins in plant disease resistance.read more
Citations
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Journal ArticleDOI
A Renaissance of Elicitors: Perception of Microbe-Associated Molecular Patterns and Danger Signals by Pattern-Recognition Receptors
Thomas Boller,Georg Felix +1 more
TL;DR: Current evidence indicates that MAMPs, DAMPs, and effectors are all perceived as danger signals and induce a stereotypic defense response, and the importance of MAMP/PRR signaling for plant immunity is highlighted.
Journal ArticleDOI
Fungal Effector Proteins
TL;DR: Variation observed among fungal effectors shows two types of selection that appear to relate to whether they interact directly or indirectly with their cognate resistance proteins, which seem to favor point mutations in effector genes and amino acid substitutions.
Journal ArticleDOI
TYPE III SECRETION SYSTEM EFFECTOR PROTEINS: Double Agents in Bacterial Disease and Plant Defense
James R. Alfano,Alan Collmer +1 more
TL;DR: Investigations of the functions of effectors within plant cells have demonstrated the plasma membrane and nucleus as subcellular sites for several effectors, revealed some effectors to possess cysteine protease or protein tyrosine phosphatase activity, and provided new clues to the coevolution of bacterium-plant interactions.
Journal ArticleDOI
RNA virus interference via CRISPR/Cas13a system in plants.
Rashid Aman,Zahir Ali,Haroon Butt,Ahmed Mahas,Fatimah R. Aljedaani,Muhammad Zhuhaib Khan,Shou-Wei Ding,Magdy M. Mahfouz +7 more
TL;DR: The data indicate that CRISPR/Cas13a can be used for engineering interference againstRNA viruses, providing a potential novel mechanism for RNA-guided immunity against RNA viruses and for other RNA manipulations in plants.
Journal ArticleDOI
Autophagy Regulates Programmed Cell Death during the Plant Innate Immune Response
Yule Liu,Michael Schiff,Kirk J. Czymmek,Zsolt Tallóczy,Beth Levine,Beth Levine,Savithramma P. Dinesh-Kumar +6 more
TL;DR: Plant BECLIN 1, an ortholog of the yeast and mammalian autophagy gene ATG6/VPS30/beclin 1, functions to restrict HR PCD to infection sites and plays an essential role in plant innate immunity and negatively regulates PCD.
References
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Journal ArticleDOI
Analysis of the genome sequence of the flowering plant Arabidopsis thaliana.
TL;DR: This is the first complete genome sequence of a plant and provides the foundations for more comprehensive comparison of conserved processes in all eukaryotes, identifying a wide range of plant-specific gene functions and establishing rapid systematic ways to identify genes for crop improvement.
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TL;DR: The current knowledge of recognition-dependent disease resistance in plants is reviewed, and a few crucial concepts are included to compare and contrast plant innate immunity with that more commonly associated with animals.
Journal ArticleDOI
Current Status of the Gene-For-Gene Concept
TL;DR: The gene-for-gene hypothesis suggests that for each gene that conditions reaction in the host there is a correspond ing gene in the parasite that conditions pathogenicity.
Journal ArticleDOI
FLS2: an LRR receptor-like kinase involved in the perception of the bacterial elicitor flagellin in Arabidopsis.
TL;DR: The identification of a new locus, FLS2, is described, which is ubiquitously expressed and encodes a putative receptor kinase and shares structural and functional homologies with known plant resistance genes and with components involved in the innate immune system of mammals and insects.
Journal ArticleDOI
A Receptor Kinase-Like Protein Encoded by the Rice Disease Resistance Gene, Xa21
Wen-Yuan Song,Guo-Liang Wang,Lili Chen,Han Suk Kim,Liya Pi,Tom Holsten,John M. Gardner,Bei Wang,Wen Xue Zhai,Li Huang Zhu,Claude M. Fauquet,Pamela C. Ronald +11 more
TL;DR: The rice Xa21 gene, which confers resistance to Xanthomonas oryzae pv. race 6, was isolated by positional cloning and the sequence of the predicted protein, which carries both a leucine-rich repeat motif and a serine-threonine kinase-like domain, suggests a role in cell surface recognition of a pathogen ligand and subsequent activation of an intracellular defense response.