Journal of Experimental Botany

JXB Advance Access originally published online on December 21, 2006
Journal of Experimental Botany 2007 58(5):969-978; doi:10.1093/jxb/erl248

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© The Author [2006]. Published by Oxford University Press [on behalf of the Society for Experimental Biology]. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org

RESEARCH PAPER

Unique properties of NADP-thioredoxin reductase C in legumes

Fatima Alkhalfioui, Michelle Renard and Françoise Montrichard^*

Physiologie Moléculaire des Semences, UMR 1191 Université d'Angers-Institut National d'Horticulture-INRA, ARES, 16 boulevard Lavoisier, 49045 Angers cedex 01, France

^* To whom correspondence should be addressed. E-mail: francoise.montrichard{at}univ-angers.fr

NADP-thioredoxin reductases (NTRs) reduce thioredoxins (Trxs), using NADPH as a reductant, together constituting complete redox systems (NTS). Beside NTRA and NTRB targeted to both cytosol and mitochondria of plant cells, there is in chloroplasts an unusual NTR (NTRC) harbouring a Trx domain in a C-terminal extension, as recently reported in Oryza sativa. Although NTRC may constitute a complete NTS, it was described as a bifunctional enzyme. Because the gene is only present in photosynthetic organisms and the protein in green tissues, NTRC was thought to have a role restricted to photosynthetic cells. To determine whether NTRC from dicot plants is a bifunctional enzyme or a complete NTS, as well as to identify its putative target, NTRC from Medicago truncatula was cloned and NTRA was cloned for comparison. Here evidence is presented that MtNTRC (i) acts as an NTS and reduces dithiobisnitrobenzoate (DTNB) with a turnover (0.62 s^–1) similar to that measured with MtNTRA in the presence of a Trxh (0.81 s^–1); (ii) is able to use both NADPH (k_M=2.4 µM) and NADH (k_M=11 µM) as cofactors; (iii) efficiently reduces BAS1, a plastidial peroxiredoxin; and (iv) is expressed in both leaves and stems but unexpectedly is even more abundant in cotyledons from dry and germinating seeds. Because BAS1 is also present in both green tissues and seeds, NTRC/BAS1 may be involved in the scavenging of peroxides produced in green tissues during the day or the night and in seeds during germination. These results suggest different roles for NTRC in monocot and dicot plants.

Key words: BAS1, germination, Medicago truncatula, NADP-thioredoxin reductase C, plastids, seed

Received 16 August 2006; Revised 24 October 2006 Accepted 26 October 2006

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