Add to ORKGIn the absence of pathogen infection, plant effector-triggered immune (ETI) receptors are maintained in a preactivation state by intermolecular interactions with other host proteins. Pathogen effector-induced alterations activate the receptor. In Arabidopsis, the ETI receptor RPM1 is activated via bacterial effector AvrB-induced phosphorylation of the RPM1-interacting protein RIN4 at Threonine 166. We find that RIN4 also interacts with the prolyl-peptidyl isomerase (PPIase) ROC1, which is reduced upon RIN4 Thr166 phosphorylation. ROC1 suppresses RPM1 immunity in a PPIase-dependent manner. Consistent with this, RIN4 Pro149 undergoes cis/trans isomerization in the presence of ROC1. While the RIN4(P149V) mutation abolishes RPM1 resistance, the...
AbstractType III pili deliver effector proteins (virulence factors) from bacterial pathogens to host...
Plants recognize microbes via specific pattern recognition receptors that are activated by microbe-a...
<div><p>Plants recognize microbes via specific pattern recognition receptors that are activated by m...
SummaryIn the absence of pathogen infection, plant effector-triggered immune (ETI) receptors are mai...
In the absence of pathogen infection, plant effector-triggered immune (ETI) receptors are maintained...
AbstractIn Arabidopsis, RPM1 confers resistance against Pseudomonas syringae expressing either of tw...
RIN4 is an intensively studied immune regulator in Arabidopsis and is involved in perception of micr...
SummaryPlants have evolved sophisticated surveillance systems to recognize pathogen effectors delive...
SummaryThe Arabidopsis NB-LRR immune receptor RPM1 recognizes the Pseudomonas syringae type III effe...
The Arabidopsis NB-LRR immune receptor RPM1 recognizes the Pseudomonas syringae type III effectors A...
Pathogens deploy virulence effectors to perturb host processes. Plants utilize intracellular resista...
Plants evolved an immune system to recognize specific pathogens, like animals. Recognition of pathog...
AbstractPlants have evolved a sophisticated innate immune system to recognize invading pathogens and...
Multiple bacterial effectors target RPM1-INTERACTING PROTEIN4 (RIN4), the biochemical modifications ...
Bacterial pathogens deliver type III effector proteins into the plant cell during infection. On susc...
AbstractType III pili deliver effector proteins (virulence factors) from bacterial pathogens to host...
Plants recognize microbes via specific pattern recognition receptors that are activated by microbe-a...
<div><p>Plants recognize microbes via specific pattern recognition receptors that are activated by m...
SummaryIn the absence of pathogen infection, plant effector-triggered immune (ETI) receptors are mai...
In the absence of pathogen infection, plant effector-triggered immune (ETI) receptors are maintained...
AbstractIn Arabidopsis, RPM1 confers resistance against Pseudomonas syringae expressing either of tw...
RIN4 is an intensively studied immune regulator in Arabidopsis and is involved in perception of micr...
SummaryPlants have evolved sophisticated surveillance systems to recognize pathogen effectors delive...
SummaryThe Arabidopsis NB-LRR immune receptor RPM1 recognizes the Pseudomonas syringae type III effe...
The Arabidopsis NB-LRR immune receptor RPM1 recognizes the Pseudomonas syringae type III effectors A...
Pathogens deploy virulence effectors to perturb host processes. Plants utilize intracellular resista...
Plants evolved an immune system to recognize specific pathogens, like animals. Recognition of pathog...
AbstractPlants have evolved a sophisticated innate immune system to recognize invading pathogens and...
Multiple bacterial effectors target RPM1-INTERACTING PROTEIN4 (RIN4), the biochemical modifications ...
Bacterial pathogens deliver type III effector proteins into the plant cell during infection. On susc...
AbstractType III pili deliver effector proteins (virulence factors) from bacterial pathogens to host...
Plants recognize microbes via specific pattern recognition receptors that are activated by microbe-a...
<div><p>Plants recognize microbes via specific pattern recognition receptors that are activated by m...