Organ-specific COP1 control of BES1 stability adjusts plant growth patterns under shade or warmth
Costigliolo Rojas C., Bianchimano L., Oh J., Romero Montepaone S., Tarkowská D., Minguet E.G., Schön J., García Hourquet M., Flugel T., Blázques M.A., Choi G., Strnad M., Mora-García S., Alabadi D., Zurbriggen M.D., Casal J.J.
DEVELOPMENTAL CELL : , 2022
Klíčová slova: shade avoidance, thermomorphogenesis, brassinosteroids, COP1, PIF4, growth (plants), plant hormones
Abstrakt: Under adverse conditions such as shade or elevated temperatures, cotyledon expansion is reduced and hypocotyl growth is promoted to optimize plant architecture. The mechanisms underlying the repression of cotyledon cell expansion remain unknown. Here, we report that the nuclear abundance of the BES1 transcription factor decreased in the cotyledons and increased in the hypocotyl in Arabidopsis thaliana under shade or warmth. Brassinosteroid levels did not follow the same trend. PIF4 and COP1 increased their nuclear abundance in both organs under shade or warmth. PIF4 directly bound the BES1 promoter to enhance its activity but indirectly reduced BES1 expression. COP1 physically interacted with the BES1 protein, promoting its proteasome degradation in the cotyledons. COP1 had the opposite effect in the hypocotyl, demonstrating organ-specific regulatory networks. Our work indicates that shade or warmth reduces BES1 activity by transcriptional and post-translational regulation to inhibit cotyledon cell expansion.
DOI: 10.1016/j.devcel.2022.07.003 Autoři z ÚEB: Miroslav Strnad, Danuše Tarkowská
DEVELOPMENTAL CELL : , 2022
Klíčová slova: shade avoidance, thermomorphogenesis, brassinosteroids, COP1, PIF4, growth (plants), plant hormones
Abstrakt: Under adverse conditions such as shade or elevated temperatures, cotyledon expansion is reduced and hypocotyl growth is promoted to optimize plant architecture. The mechanisms underlying the repression of cotyledon cell expansion remain unknown. Here, we report that the nuclear abundance of the BES1 transcription factor decreased in the cotyledons and increased in the hypocotyl in Arabidopsis thaliana under shade or warmth. Brassinosteroid levels did not follow the same trend. PIF4 and COP1 increased their nuclear abundance in both organs under shade or warmth. PIF4 directly bound the BES1 promoter to enhance its activity but indirectly reduced BES1 expression. COP1 physically interacted with the BES1 protein, promoting its proteasome degradation in the cotyledons. COP1 had the opposite effect in the hypocotyl, demonstrating organ-specific regulatory networks. Our work indicates that shade or warmth reduces BES1 activity by transcriptional and post-translational regulation to inhibit cotyledon cell expansion.
DOI: 10.1016/j.devcel.2022.07.003 Autoři z ÚEB: Miroslav Strnad, Danuše Tarkowská