DET1-mediated COP1 regulation avoids HY5 activity over second-site gene targets to tune plant photomorphogenesis

导出学术成果认领

摘要DE-ETIOLATED1(DET1)and CONSTITUTIVE PHOTOMORPHOGENESIS1(COP1)are two essential repres-sors of Arabidopsis photomorphogenesis.These proteins can associate with CULLIN4 to form independent CRL4-based E3 ubiquitin ligases that mediate the degradation of several photomorphogenic transcription factors,including ELONGATED HYPOCOTYL 5(HY5),thereby controlling multiple gene-regulatory net-works.Despite extensive biochemical and genetic analyses of their multi-subunit complexes,the func-tional links between DET1 and COP1 have long remained elusive.Here,we report that DET1 associates with COP1 in vivo,enhances COP1-HY5 interaction,and promotes COP1 destabilization in a process that dampens HY5 protein abundance.By regulating its accumulation,DET1 avoids HY5 association with hundreds of second-site genomic loci,which are also frequently targeted by the skotomorphogenic tran-scription factor PHYTOCHROME-INTERACTING FACTOR 3.Accordingly,ectopic HY5 chromatin enrich-ment favors local gene repression and can trigger fusca-like phenotypes.This study therefore shows that DET1-mediated regulation of COP1 stability tunes down the HY5 cistrome,avoiding hyper-photomorphogenic responses that might compromise plant viability.

作者 Esther Ca?ibano ^[1] Clara Bourbousse ^[2] Marta García-León ^[1] Borja Garnelo Gómez ^[3] Léa Wolff ^[2] Camila García-Baudino ^[1] Rosa Lozano-Durán ^[4] Fredy Barneche ^[2] Vicente Rubio ^[1] Sandra Fonseca ^[1] 学术成果认领

作者单位 Centro Nacional de Biotecnología,CNB-CSIC,Madrid 28049,Spain ^[1] Institut de biologie de I'école normale supérieure(IBENS),école normale supérieure,CNRS,INSERM,Université PSL,Paris 75005,France ^[2] Shanghai Center for Plant Stress Biology,CAS Center for Excellence in Molecular Plant Sciences,Chinese Academy of Sciences,Shanghai 201602,China ^[3] Shanghai Center for Plant Stress Biology,CAS Center for Excellence in Molecular Plant Sciences,Chinese Academy of Sciences,Shanghai 201602,China;Department of Plant Biochemistry,Centre for Plant Molecular Biology(ZMBP),Eberhard Karls University,72076 Tubingen,Germany ^[4]

关键词 HY5 DET1 COP1 photomorphogenesis light signaling fusca

栏目名称 Research Articles

发布时间 2021-08-18

基金项目

This work was supported by a Ramon y Cajal grant funded by the Ministerio de Economía y Competitividad to S Work by S in F B.'s lab was supported by the COST Action CA16212 INDEPTH(European Union) Work in V R.'s laboratory was funded by the Agencia Estatal de Investigación/Fondo Europeo de Desarollo Regional/European Union Work in F B.'s lab was supported by CNRS EPIPLANT Action(France)and funded by Agence Nationale de la Recherche grants ANR-10-LABX-54,ANR-18-CE13-0004-01,ANR-17-CE12-0026-02(France)and by Velux Stiftung(Switzerland) is funded by President's International Fellowship Initiative postdoctoral fellowship from the Chinese Academy of Sciences,and is the recipient of a Talent-Introduction grant(Chinese Postdoctoral International Exchange Program)

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