BMC Plant Biology (Apr 2008)

The redox-sensitive transcription factor Rap2.4a controls nuclear expression of 2-Cys peroxiredoxin A and other chloroplast antioxidant enzymes

  • Birkmann Stefan,
  • Hiltscher Heiko,
  • Ströher Elke,
  • Seidel Thorsten,
  • Heiber Isabelle,
  • Shaikhali Jehad,
  • Dietz Karl-Josef,
  • Baier Margarete

DOI
https://doi.org/10.1186/1471-2229-8-48
Journal volume & issue
Vol. 8, no. 1
p. 48

Abstract

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Abstract Background The regulation of the chloroplast antioxidant capacity depends on nuclear gene expression. For the 2-Cys peroxiredoxin-A gene (2CPA) a cis-regulatory element was recently characterized, which responds to photosynthetic redox signals. Results In a yeast-one-hybrid screen for cis-regulatory binding proteins, the transcription factor Rap2.4a was isolated. Rap2.4a controls the transcript abundance of the prominent chloroplast antioxidant enzyme through binding to the CGCG core of a CE3-like element. Rap2.4a activity is regulated by dithiol/disulfide transition of regulatory cysteinyl residues and subsequent changes in the quaternary structure. The mid-point redox potential of Rap2.4a activation is -269 mV (pH 7.0). Conclusion The redox sensitivity of Rap2.4a establishes an efficient switch mechanism for redox control of nuclear gene activity of chloroplast antioxidants, in which Rap2.4 is a redox-sensor and a transducer of redox information.