Plants maintain their internal temperature under environments with fluctuating temperatures by adjusting their morphology and architecture,an adaptive process termed thermomorphogenesis.Notably,the rhythmic patterns o...Plants maintain their internal temperature under environments with fluctuating temperatures by adjusting their morphology and architecture,an adaptive process termed thermomorphogenesis.Notably,the rhythmic patterns of plant thermomorphogenesis are governed by day-length information.However,it remains elusive how thermomorphogenic rhythms are regulated by photoperiod.Here,we show that warm temperatures enhance the accumulation of the chaperone GIGANTEA(Gl),which thermostabilizes the DELLA protein,REPRESSOR OF ga1-3(RGA),under long days,thereby attenuating PHYTOCHROME INTERACTING FACTOR 4(PIF4)-mediated thermomorphogenesis.In contrast,under short days,when Gl accumulation is reduced,RGA is readily degraded through the gibberellic acid-mediated ubiquitination-proteasome pathway,promoting thermomorphogenic growth.These data indicate that the GI-RGA-PIF4 signaling module enables plant thermomorphogenic responses to occur in a day-length-dependent manner.We propose that the Gl-mediated integration of photoperiodic and temperature information shapes thermomorphogenic rhythms,which enable plants to adapt to diel fluctuations in day length and temperature during seasonal transitions.展开更多
基金supported by the Leaping Research(NRF-2018R1A2A1A19020840)Program provided by the National Research Foundation of Korea(NRF)the Next-Generation BioGreen 21 Program(PJ013134)provided by the Rural Development Administration of Korea.Y.-J.P.was partiallysupported by Global PhD Fellowship Program through NRF(NRF-2016H1A2A1906534).
文摘Plants maintain their internal temperature under environments with fluctuating temperatures by adjusting their morphology and architecture,an adaptive process termed thermomorphogenesis.Notably,the rhythmic patterns of plant thermomorphogenesis are governed by day-length information.However,it remains elusive how thermomorphogenic rhythms are regulated by photoperiod.Here,we show that warm temperatures enhance the accumulation of the chaperone GIGANTEA(Gl),which thermostabilizes the DELLA protein,REPRESSOR OF ga1-3(RGA),under long days,thereby attenuating PHYTOCHROME INTERACTING FACTOR 4(PIF4)-mediated thermomorphogenesis.In contrast,under short days,when Gl accumulation is reduced,RGA is readily degraded through the gibberellic acid-mediated ubiquitination-proteasome pathway,promoting thermomorphogenic growth.These data indicate that the GI-RGA-PIF4 signaling module enables plant thermomorphogenic responses to occur in a day-length-dependent manner.We propose that the Gl-mediated integration of photoperiodic and temperature information shapes thermomorphogenic rhythms,which enable plants to adapt to diel fluctuations in day length and temperature during seasonal transitions.
