HSP90 in morphogenesis: taking the heat and keeping the dark.

[1]  Lin Li,et al.  HSP90s are required for hypocotyl elongation during skotomorphogenesis and thermomorphogenesis via the COP1-ELF3-PIF4 pathway in Arabidopsis. , 2023, The New phytologist.

[2]  M. Quint,et al.  Recent advances in understanding thermomorphogenesis signaling. , 2022, Current opinion in plant biology.

[3]  Sandra M Kerbler,et al.  Temperature Sensing in Plants. , 2022, Annual review of plant biology.

[4]  T. Nyström,et al.  An Hsp90 co-chaperone links protein folding and degradation and is part of a conserved protein quality control. , 2021, Cell reports.

[5]  S. Davis,et al.  The E3 ligase XBAT35 mediates thermoresponsive hypocotyl growth by targeting ELF3 for degradation in Arabidopsis. , 2021, Journal of integrative plant biology.

[6]  S. Davis,et al.  XBAT31 regulates thermoresponsive hypocotyl growth through mediating degradation of the thermosensor ELF3 in Arabidopsis , 2021, Science Advances.

[7]  Martin Balcerowicz PHYTOCHROME INTERACTING FACTORS at the interface of light and temperature signalling. , 2020, Physiologia plantarum.

[8]  J. Franco-Zorrilla,et al.  Molecular mechanisms of Evening Complex activity in Arabidopsis , 2020, Proceedings of the National Academy of Sciences.

[9]  M. Geisler,et al.  HSP90 and co‐chaperones: a multitaskers’ view on plant hormone biology , 2019, FEBS letters.

[10]  Jian-Xiang Liu,et al.  Two B-Box Domain Proteins, BBX18 and BBX23, Interact with ELF3 and Regulate Thermomorphogenesis in Arabidopsis. , 2018, Cell reports.

[11]  Chung-Mo Park,et al.  COP1 conveys warm temperature information to hypocotyl thermomorphogenesis. , 2017, The New phytologist.

[12]  Stefan Kepinski,et al.  HSP90 regulates temperature-dependent seedling growth in Arabidopsis by stabilizing the auxin co-receptor F-box protein TIR1 , 2016, Nature Communications.

[13]  K. Dehesh,et al.  The Transcriptional Regulator BBX19 Promotes Hypocotyl Growth by Facilitating COP1-Mediated EARLY FLOWERING3 Degradation in Arabidopsis , 2015, Plant Cell.

[14]  J. Botto,et al.  The BBX family of plant transcription factors. , 2014, Trends in plant science.

[15]  D. E. Somers,et al.  HSP90 functions in the circadian clock through stabilization of the client F-box protein ZEITLUPE , 2011, Proceedings of the National Academy of Sciences.

[16]  Steve A. Kay,et al.  The ELF4-ELF3-LUX Complex Links the Circadian Clock to Diurnal Control of Hypocotyl Growth , 2011, Nature.

[17]  S. Lindquist,et al.  HSP90 at the hub of protein homeostasis: emerging mechanistic insights , 2010, Nature Reviews Molecular Cell Biology.

[18]  V. Rubio,et al.  COP1 and ELF3 control circadian function and photoperiodic flowering by regulating GI stability. , 2008, Molecular cell.

[19]  Ron Milo,et al.  HSP90 affects the expression of genetic variation and developmental stability in quantitative traits , 2008, Proceedings of the National Academy of Sciences.

[20]  OUP accepted manuscript , 2021, The Plant Cell.