Yaqiao Shi scite author profile

Heat stress (HS) has serious negative effects on plant development and has become a major threat to agriculture. A rapid transcriptional regulatory cascade has evolved in plants in response to HS. Nuclear Factor-Y (NF-Y) complexes are critical for this mechanism, but how NF-Y complexes are regulated remains unclear. In this study, we identified NF-YC10 (NF-Y subunit C10), a central regulator of the HS response in Arabidopsis thaliana, as a substrate of SUMOylation, an important post-translational modification. Biochemical analysis showed that the SUMO ligase SIZ1 (SAP AND MIZ1 DOMAIN-CONTAINING LIGASE1) interacts with NF-YC10 and enhances its SUMOylation during HS. The SUMOylation of NF-YC10 facilitates its interaction with and the nuclear translocation of NF-YB3, in which the SUMO interaction motif (SIM) is essential for its efficient association with NF-YC10. Further functional analysis indicated that the SUMOylation of NF-YC10 and the SIM of NF-YB3 are critical for HS-responsive gene expression and plant thermotolerance. These findings uncover a role for the SIZ1-mediated SUMOylation of NF-YC10 in NF-Y complex assembly under HS, providing new insights into the role of a post-translational modification in regulating transcription during abiotic stress responses in plants.

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A BODIPY-based fluorescent chemosensor with 2, 6-substitution for visual and highly selective detection of S2–

Chan

et al. 2023

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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A Bodipy-Based Fluorescent Chemosensor with 2,6-Substitution for Visual and Highly Selective Detection of S2–

Chan

et al. 2023

Preprint

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Yaqiao Shi

SUMOylation Stabilizes the Transcription Factor DREB2A to Improve Plant Thermotolerance

SUMOylation facilitates the assembly of a Nuclear Factor‐Y complex to enhance thermotolerance in Arabidopsis

A BODIPY-based fluorescent chemosensor with 2, 6-substitution for visual and highly selective detection of S2–

A Bodipy-Based Fluorescent Chemosensor with 2,6-Substitution for Visual and Highly Selective Detection of S2–

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