Arabidopsis SPA2 represses seedling de‐etiolation under multiple light conditions

Liang Su; Peng Zhou; Lin Guo; Xiaolin Jia; Shaoci Wang; Jianwei Gao; Hongyu Li; Bin Liu; Meifang Song; Jianping Yang

doi:10.1002/pld3.403

Plant Direct (May 2022)

Arabidopsis SPA2 represses seedling de‐etiolation under multiple light conditions

Liang Su,
Peng Zhou,
Lin Guo,
Xiaolin Jia,
Shaoci Wang,
Jianwei Gao,
Hongyu Li,
Bin Liu,
Meifang Song,
Jianping Yang

Affiliations

Liang Su: Institute of Radiation Technology Beijing Academy of Science and Technology Beijing China
Peng Zhou: Institute of Crop Science Chinese Academy of Agricultural Sciences Beijing China
Lin Guo: Institute of Crop Science Chinese Academy of Agricultural Sciences Beijing China
Xiaolin Jia: College of Agronomy, State Key Laboratory of Wheat and Maize Crop Science, and Center for Crop Genome Engineering Henan Agricultural University Zhengzhou China
Shaoci Wang: College of Agronomy, State Key Laboratory of Wheat and Maize Crop Science, and Center for Crop Genome Engineering Henan Agricultural University Zhengzhou China
Jianwei Gao: Shandong Branch of National Vegetable Improvement Center, Institute of Vegetable Research Shandong Academy of Agricultural Sciences Jinan China
Hongyu Li: Institute of Crop Science Chinese Academy of Agricultural Sciences Beijing China
Bin Liu: Institute of Crop Science Chinese Academy of Agricultural Sciences Beijing China
Meifang Song: Institute of Radiation Technology Beijing Academy of Science and Technology Beijing China
Jianping Yang: Institute of Crop Science Chinese Academy of Agricultural Sciences Beijing China

DOI: https://doi.org/10.1002/pld3.403
Journal volume & issue: Vol. 6, no. 5
pp. n/a – n/a

Abstract

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Abstract In Arabidopsis, phytochrome (phy) A, phyB, and cryptochrome 1 (cry1) are representative far‐red, red, and blue light photoreceptors, respectively. Members of the SUPPRESSOR OF PHYA‐105 (SPA) protein family (SPA1–SPA4) form E3 ubiquitin ligase complexes with CONSTITUTIVE PHOTOMORPHOGENIC1 (COP1), which mediates the degradation of photomorphogenesis‐promoting factors to desensitize light signaling. SPA2 has been reported to promote seedling etiolation in the dark. However, the unique roles of SPA2 and its three functional domains in suppressing photomorphogenesis under different light conditions are largely unknown. Here, we demonstrate that overexpression of the full‐length or the central coiled‐coil and C‐terminal WD‐repeat domains of SPA2 cause hyper‐etiolation phenotypes under several light conditions. The SPA2 central coiled‐coil and C‐terminal WD‐repeat domains are necessary and sufficient for repressing seedling de‐etiolation, cotyledon unfolding, and promoting hypocotyl negative gravitropism under several light conditions. Furthermore, phyA, phyB, cry1, and COP1 repress protein accumulation or nuclear translocation of SPA2 through direct interactions with its kinase‐like and coiled‐coil domains located in the N‐terminus in response to far‐red, red, and blue light treatments, respectively. Taken together, our results demonstrate that SPA2 functions under multiple light conditions; moreover, light‐activated photoreceptors rapidly suppress SPA2 activity via direct interactions in response to different light treatments.

Published in Plant Direct

ISSN: 2475-4455 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Botany
Website: https://onlinelibrary.wiley.com/journal/24754455

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