Journal
JOURNAL OF EXPERIMENTAL BOTANY
Volume 61, Issue 14, Pages 4043-4054Publisher
OXFORD UNIV PRESS
DOI: 10.1093/jxb/erq218
Keywords
Chloroplast; oxidative stress; peroxiredoxin; thioredoxin
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Funding
- Ministerio de Educacion y Ciencia [BIO2007-60644]
- Junta de Andalucia (Spain) [P06-CVI-01578, BIO-182]
- DFG [Di346]
- Seville University
- CSIC
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Photosynthesis is a process that inevitably produces reactive oxygen species, such as hydrogen peroxide, which is reduced by chloroplast-localized detoxification mechanisms one of which involves 2-Cys peroxiredoxins (2-Cys Prxs). Arabidopsis chloroplasts contain two very similar 2-Cys Prxs (denoted A and B). These enzymes are reduced by two pathways: NADPH thioredoxin reductase C (NTRC), which uses NADPH as source of reducing power; and plastidial thioredoxins (Trxs) coupled to photosynthetically reduced ferredoxin of which Trx x is the most efficient reductant in vitro. With the aim of establishing the functional relationship between NTRC, Trx x, and 2-Cys Prxs in vivo, an Arabidopsis Trx x knock-out mutant has been identified and a double mutant (denoted delta 2cp) with < 5% of 2-Cys Prx content has been generated. The phenotypes of the three mutants, ntrc, trxx, and delta 2cp, were compared under standard growth conditions and in response to continuous light or prolonged darkness and oxidative stress. Though all mutants showed altered redox homeostasis, no difference was observed in response to oxidative stress treatment. Moreover, the redox status of the 2-Cys Prx was imbalanced in the ntrc mutant but not in the trxx mutant. These results show that NTRC is the most relevant pathway for chloroplast 2-Cys Prx reduction in vivo, but the antioxidant function of this system is not essential. The deficiency of NTRC caused a more severe phenotype than the deficiency of Trx x or 2-Cys Prxs as determined by growth, pigment content, CO2 fixation, and F-v/F-m, indicating additional functions of NTRC.
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