The circadian clock entrained by environmental light-dark cycles enables plants to fine-tune diurnal growth and developmental responses.Here,we show that physical interactions among evening clock components,including ...The circadian clock entrained by environmental light-dark cycles enables plants to fine-tune diurnal growth and developmental responses.Here,we show that physical interactions among evening clock components,including PSEUDO-RESPONSE REGULATOR 5(PRR5),TIMING OF CAB EXPRESSION 1(TOC1),and the Evening Complex(EC)component EARLY FLOWERING 3(ELF3),define a diurnal repressive chromatin structure specifically at the PHYTOCHROME-INTERACTING FACTOR 4(PIF4)locus in Arabidopsis.These three clock components act interdependently as well as independently to repress nighttime hypocotyl elongation,as hypocotyl elongation rate dramatically increased specifically at nighttime in the prr5-1 toc1-21 elf3-1 mutant,concomitantly with a substantial increase in PIF4 expression.Transcriptional repression of PIF4 by ELF3,PRR5,and TOC1 is mediated by the SWI2/SNF2-RELATED(SWR1)chromatin remodeling complex,which incorporates histone H2A.Z at thePIF4 locus,facilitating robust epigenetic suppression ofPIF4 during the evening.Overall,these findings demonstrate that the PRR-EC-SWR1 complex represses hypocotyl elongation at night through a distinctive chromatin domain covering PIF4 chromatin.展开更多
Global warming has become the most serious issue in the world.The global average surface temperature has gradually increased over the last 50 years,and unprecedented abnormal climates have occurred around the globe.Ec...Global warming has become the most serious issue in the world.The global average surface temperature has gradually increased over the last 50 years,and unprecedented abnormal climates have occurred around the globe.Ecosystems are being seriously threatened,and many species are endangered due to loss of habitat.Plants are not immune from global warming,but because of their sessile nature,plants have evolved elaborate sensory mechanisms for ambient temperatures.Growing concerns include how plants sense the temperature changes and what natural variations have evolved for plant adaptation to given habitat climates.展开更多
基金supported by the Basic Science Research(NRF2022R1A2B5B02001266 to P.J.S.and NRF-2023R1A2C3002386 to E.O.)Basic Research Laboratory(NRF-2022R1A4A3024451)programs provided by the National Research Foundation of Korea.
文摘The circadian clock entrained by environmental light-dark cycles enables plants to fine-tune diurnal growth and developmental responses.Here,we show that physical interactions among evening clock components,including PSEUDO-RESPONSE REGULATOR 5(PRR5),TIMING OF CAB EXPRESSION 1(TOC1),and the Evening Complex(EC)component EARLY FLOWERING 3(ELF3),define a diurnal repressive chromatin structure specifically at the PHYTOCHROME-INTERACTING FACTOR 4(PIF4)locus in Arabidopsis.These three clock components act interdependently as well as independently to repress nighttime hypocotyl elongation,as hypocotyl elongation rate dramatically increased specifically at nighttime in the prr5-1 toc1-21 elf3-1 mutant,concomitantly with a substantial increase in PIF4 expression.Transcriptional repression of PIF4 by ELF3,PRR5,and TOC1 is mediated by the SWI2/SNF2-RELATED(SWR1)chromatin remodeling complex,which incorporates histone H2A.Z at thePIF4 locus,facilitating robust epigenetic suppression ofPIF4 during the evening.Overall,these findings demonstrate that the PRR-EC-SWR1 complex represses hypocotyl elongation at night through a distinctive chromatin domain covering PIF4 chromatin.
基金the Basic Science Research(NRF-2019R1A2C2006915)Basic Research Laboratory(NRF-2020R1A4A2002901)programs provided by the National Research Foundation of Korea(South Korea).
文摘Global warming has become the most serious issue in the world.The global average surface temperature has gradually increased over the last 50 years,and unprecedented abnormal climates have occurred around the globe.Ecosystems are being seriously threatened,and many species are endangered due to loss of habitat.Plants are not immune from global warming,but because of their sessile nature,plants have evolved elaborate sensory mechanisms for ambient temperatures.Growing concerns include how plants sense the temperature changes and what natural variations have evolved for plant adaptation to given habitat climates.
