Litcius/Paper detail

OsAPX1 Positively Contributes to Rice Blast Resistance

Cong Sheng, Dongli Yu, Xuan Li, Hanxi Yu, Yimai Zhang, Muhammad Saqib Bilal, Hongyu Ma, Xın Zhang, Ayesha Baig, Pingping Nie, Hongwei Zhao

2022Frontiers in Plant Science18 citationsDOIOpen Access PDF

Abstract

Ascorbate peroxidases (APXs) maintain cellular reactive oxygen species (ROS) homeostasis through their peroxidase activity. Here, we report that OsAPX1 also promotes ROS production such that a delicate cellular ROS homeostasis is achieved temporally after Magnaporthe oryzae infection. OsAPX1 specifically induces ROS production through increasing respiratory burst oxidase homologs ( OsRBOHs ) expression and can be inhibited by DPI, a ROS inhibitor. The time-course experiment data show that the simultaneous induction of OsAPX1 and OsRBOHs leads to ROS accumulation at an early stage; whereas a more durable expression of OsAPX1 leads to ROS scavenging at a later stage. By the temporal switching between ROS inducer and eliminator, OsAPX1 triggers an instant ROS burst upon M. oryzae infection and then a timely elimination of ROS toxicity. We find that OsAPX1 is under the control of the miR172a- OsIDS1 regulatory module. OsAPX1 also affects salicylic acid (SA) synthesis and signaling, which contribute to blast resistance. In conclusion, we show that OsAPX1 is a key factor that connects the upstream gene silencing and transcription regulatory routes with the downstream phytohormone and redox pathway, which provides an insight into the sophisticated regulatory network of rice innate immunity.

Topics & Concepts

Resistance (ecology)BiologyBiotechnologyAgronomyPlant-Microbe Interactions and ImmunityAluminum toxicity and tolerance in plants and animalsPlant Genetic and Mutation Studies