| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2045963 | Current Opinion in Plant Biology | 2011 | 7 Pages |
Activation of plant immunity is associated with dramatic changes in the cellular redox status. Both oxidative and reductive bursts have been described that trigger a set of down stream responses resulting in reprogramming of the transcriptome and establishment of disease resistance. Nonetheless, how these redox changes are sensed and signal to downstream regulators remained a missing link in studies of plant immunity. Emerging evidence now indicates that pathogen-induced changes in the cellular redox environment are sensed by reactive cysteine residues of key regulatory proteins. Varying degrees of reversible, oxidative cysteine modifications control the activity, localization, protein-interaction and stability of regulatory proteins. These diverse effects on protein function make post-translational redox-based modifications potent modulators of plant immunity.
► Defence hormones signal through changes cellular redox. ► Stress-induced redox changes are sensed by regulatory proteins. ► Reversible oxidative modification of cysteines controls protein function.
