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Light-induced remodeling of phytochrome B enables signal transduction by phytochrome-interacting factor

Zhengdong Wang, Wenfeng Wang, Didi Zhao, Yanping Song, Xiaoli Lin, Meng Shen, Cheng Chi, Bin Xu, Jun Zhao, Xing Wang Deng, Jizong Wang

2024Cell59 citationsDOIOpen Access PDF

Abstract

Phytochrome B (phyB) and phytochrome-interacting factors (PIFs) constitute a well-established signaling module critical for plants adapting to ambient light. However, mechanisms underlying phyB photoactivation and PIF binding for signal transduction remain elusive. Here, we report the cryo-electron microscopy (cryo-EM) structures of the photoactivated phyB or the constitutively active phyB Y276H mutant in complex with PIF6, revealing a similar trimer. The light-induced configuration switch of the chromophore drives a conformational transition of the nearby tongue signature within the phytochrome-specific (PHY) domain of phyB. The resulting α-helical PHY tongue further disrupts the head-to-tail dimer of phyB in the dark-adapted state. These structural remodelings of phyB facilitate the induced-fit recognition of PIF6, consequently stabilizing the N-terminal extension domain and a head-to-head dimer of activated phyB. Interestingly, the phyB dimer exhibits slight asymmetry, resulting in the binding of only one PIF6 molecule. Overall, our findings solve a key question with respect to how light-induced remodeling of phyB enables PIF signaling in phytochrome research.

Topics & Concepts

PhytochromeBiologySignal transductionPhytochrome ACell biologyTransduction (biophysics)BiophysicsGeneticsRed lightBotanyArabidopsisGeneMutantLight effects on plantsPlant Molecular Biology ResearchPhotosynthetic Processes and Mechanisms
Light-induced remodeling of phytochrome B enables signal transduction by phytochrome-interacting factor | Litcius