Cell elongation is regulated through a central circuit of interacting transcription factors in the Arabidopsis hypocotyl
Carnegie Institution for Science · Carnegie Department of Plant Biology
Abstract
As the major mechanism of plant growth and morphogenesis, cell elongation is controlled by many hormonal and environmental signals. How these signals are coordinated at the molecular level to ensure coherent cellular responses remains unclear. In this study, we illustrate a molecular circuit that integrates all major growth-regulating signals, including auxin, brassinosteroid, gibberellin, light, and temperature. Analyses of genome-wide targets, genetic and biochemical interactions demonstrate that the auxin-response factor ARF6, the light/temperature-regulated transcription factor PIF4, and the brassinosteroid-signaling transcription factor BZR1, interact with each other and cooperatively regulate large…
Citation impact
- FWCI
- 55.41
- Percentile
- 100%
- References
- 54
Authors
6- EOEunkyoo OhCorresponding
Carnegie Institution for Science, Carnegie Department of Plant Biology
- JZJia-Ying Zhu
Carnegie Institution for Science, Carnegie Department of Plant Biology
- MBMing‐Yi Bai
Carnegie Institution for Science, Carnegie Department of Plant Biology
- RARafael Augusto Arenhart
Carnegie Institution for Science, Carnegie Department of Plant Biology
- YSYu Sun
Carnegie Institution for Science, Carnegie Department of Plant Biology
Topics & keywords
- Brassinosteroid
- Arabidopsis
- Auxin
- Transcription factor
- Gibberellin
- Cell biology
- Biology
- Hypocotyl
- Life in Land