Chloroplast elongation factors break the growth-immunity trade-off by simultaneously promoting yield and defence.

Abstract

Chloroplasts regulate plant development and immunity. Here we report that potato chloroplast elongation factors StTuA and StTuB, targeted by Phytophthora infestans RXLR effector Pi22926, positively regulate immunity and growth. Plants expressing Pi22926, or silenced for TuA/B, show increased P. infestans susceptibility and decreased photosynthesis, plant growth and tuber yield. By contrast, StTuA/B overexpression reduces susceptibility, elevates chloroplast-derived reactive oxygen species production and increases photosynthesis and potato tuber yield by enhancing chloroplast protein translation. Another plant target of Pi22926, StMAP3Kβ2, interacts with StTuB, phosphorylating it to promote its translocation into chloroplasts. However, Pi22926 attenuates StTuB association with StMAP3Kβ2 and phosphorylation. This reduces StTuB translocation into chloroplasts, leading to its proteasome-mediated turnover in the cytoplasm. We uncover new mechanisms by which a pathogen effector inhibits immunity by disrupting key chloroplast functions. This work shows that StTuA/B break the growth-immunity trade-off, promoting both disease resistance and yield, revealing the enormous potential of chloroplast biology in crop breeding.