The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes

Heiber I, Stroeher E, Raatz B, Busse I, Kahmann U, Bevan MW, Dietz K-J, Baier M (2007)
PLANT PHYSIOLOGY 143(4): 1774-1788.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Heiber, Isabelle; Stroeher, Elke; Raatz, Bodo; Busse, Ingo; Kahmann, Uwe; Bevan, Mike W.; Dietz, Karl-JosefUniBi; Baier, Margarete
Abstract / Bemerkung
A network of enzymatic and nonenzymatic antioxidants protects chloroplasts from photooxidative damage. With all enzymatic components being nuclear encoded, the control of the antioxidant capacity depends on chloroplast-to-nucleus redox signaling. Using an Arabidopsis (Arabidopsis thaliana) reporter gene line expressing luciferase under control of the redox-sensitive 2-cysteine peroxiredoxin A (2CPA) promoter, six mutants with low 2CPA promoter activity were isolated, of which five mutants show limitations in redox-box regulation of the 2CPA promoter. In addition to 2CPA, the transcript levels for other chloroplast antioxidant enzymes were decreased, although a higher oxidation status of the ascorbate pool, a higher reduction state of the plastoquinone pool, and an increased oxidation status of the 2-Cys peroxiredoxin pool demonstrated photooxidative stress conditions. Greening of the mutants, chloroplast ultrastructure, steady-state photosynthesis, and the responses to the stress hormone abscisic acid were wild type like. In the rosette state, the mutants were more sensitive to low CO2 and to hydrogen peroxide. Comparison of gene expression patterns and stress sensitivity characterizes the mutants as redox imbalanced in the regulation of nuclear-encoded chloroplast antioxidant enzymes and differentiates redox signaling cascades.
Erscheinungsjahr
2007
Zeitschriftentitel
PLANT PHYSIOLOGY
Band
143
Ausgabe
4
Seite(n)
1774-1788
ISSN
0032-0889
eISSN
1532-2548
Page URI
https://pub.uni-bielefeld.de/record/1594143

Zitieren

Heiber I, Stroeher E, Raatz B, et al. The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes. PLANT PHYSIOLOGY. 2007;143(4):1774-1788.
Heiber, I., Stroeher, E., Raatz, B., Busse, I., Kahmann, U., Bevan, M. W., Dietz, K. - J., et al. (2007). The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes. PLANT PHYSIOLOGY, 143(4), 1774-1788. https://doi.org/10.1104/pp.106.093328
Heiber, Isabelle, Stroeher, Elke, Raatz, Bodo, Busse, Ingo, Kahmann, Uwe, Bevan, Mike W., Dietz, Karl-Josef, and Baier, Margarete. 2007. “The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes”. PLANT PHYSIOLOGY 143 (4): 1774-1788.
Heiber, I., Stroeher, E., Raatz, B., Busse, I., Kahmann, U., Bevan, M. W., Dietz, K. - J., and Baier, M. (2007). The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes. PLANT PHYSIOLOGY 143, 1774-1788.
Heiber, I., et al., 2007. The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes. PLANT PHYSIOLOGY, 143(4), p 1774-1788.
I. Heiber, et al., “The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes”, PLANT PHYSIOLOGY, vol. 143, 2007, pp. 1774-1788.
Heiber, I., Stroeher, E., Raatz, B., Busse, I., Kahmann, U., Bevan, M.W., Dietz, K.-J., Baier, M.: The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes. PLANT PHYSIOLOGY. 143, 1774-1788 (2007).
Heiber, Isabelle, Stroeher, Elke, Raatz, Bodo, Busse, Ingo, Kahmann, Uwe, Bevan, Mike W., Dietz, Karl-Josef, and Baier, Margarete. “The redox imbalanced mutants of arabidopsis differentiate signaling pathways for redox regulation of chloroplast antioxidant enzymes”. PLANT PHYSIOLOGY 143.4 (2007): 1774-1788.

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