Identification of a putative RBOHD-FERONIA-CRK10-PIP2;6 plasma membrane complex that interacts with phyB to regulate ROS production in Arabidopsis thaliana

  1. Devasantosh Mohanty
  2. Yosef Fichman
  3. María Ángeles Peláez-Vico
  4. Ronald J Myers
  5. Maya Sealander
  6. Ranjita Sinha
  7. Johanna Morrow
  8. Ron Eckstein
  9. Kate Olson
  10. Chunhui Xu
  11. Hong An
  12. Chan Yul Yoo
  13. Jian-Kang Zhu
  14. Chunzhao Zhao
  15. Sara I. Zandalinas
  16. Emmanuel Liscum
  17. Ron Mittler
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Abstract

  • Reactive oxygen species (ROS) regulate plant growth, development, and responses to the environment. ROS production by the RESPIRATORY BURST OXIDASE PROTEIN D (RBOHD) protein was recently shown to be regulated by PHYTOCHROME B (phyB), and phyB was found to be phosphorylated by FERONIA, highlighting the possibility that these three proteins interact to regulate ROS levels during stress.

  • Immunoprecipitation and proximity labelling, followed by split-luciferase and functional validation assays, were used to study the interactions between FERONIA, phyB, and RBOHD during excess light (EL) stress in Arabidopsis thaliana .

  • We reveal that phyB and FERONIA interact with RBOHD, that phosphorylation of phyB by FERONIA, as well as the kinase activity of FERONIA, are required for RBOHD-driven ROS production in response to EL stress, and that CYSTEINE-RICH RECEPTOR LIKE KINASE 10 (CRK10) and PLASMA MEMBRANE INTRINSIC PROTEIN 2;6 (PIP2;6) interact with RBOHD and phyB and are also required for EL-driven RBOHD ROS production.

  • Our findings uncover the existence of a putative plasma membrane complex between FERONIA, RBOHD, CRK10, and PIP2;6 that interacts with phyB to regulate ROS production in Arabidopsis in response to stress. This complex could play a canonical role in the integration and regulation of multiple signaling pathways in plants.

Plain Language Summary

We identified a complex between several different proteins at the plasma membrane that interacts with the light and temperature receptor protein phytochrome B to regulate reactive oxygen species formation during stress in plants. This complex could be involved in the regulation and integration of multiple abiotic and biotic signals in plants.

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  1. Version published to 10.1101/2025.11.23.689998 on bioRxiv