Michelle Renard scite author profile

Germination of cereals is accompanied by extensive change in the redox state of seed proteins. Proteins present in oxidized form in dry seeds are converted to the reduced state following imbibition. Thioredoxin (Trx) appears to play a role in this transition in cereals. It is not known, however, whether Trx-linked redox changes are restricted to cereals or whether they take place more broadly in germinating seeds. To gain information on this point, we have investigated a model legume, Medicago truncatula. Two complementary gel-based proteomic approaches were followed to identify Trx targets in seeds: Proteins were (1) labeled with a thiol-specific probe, monobromobimane (mBBr), following in vitro reduction by an NADP/Trx system, or (2) isolated on a mutant Trx affinity column. Altogether, 111 Trx-linked proteins were identified with few differences between axes and cotyledons. Fifty nine were new, 34 found previously in cereal or peanut seeds, and 18 in other plants or photosynthetic organisms. In parallel, the redox state of proteins assessed in germinating seeds using mBBr revealed that a substantial number of proteins that are oxidized or partly reduced in dry seeds became more reduced upon germination. The patterns were similar for proteins reduced in vivo during germination or in vitro by Trx. In contrast, glutathione and glutaredoxin were less effective as reductants in vitro. Overall, more than half of the potential targets identified with the mBBr labeling procedure were reduced during germination. The results provide evidence that Trx functions in the germination of seeds of dicotyledons as well as monocotyledons.

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Unique properties of NADP-thioredoxin reductase C in legumes

Alkhalfioui¹,

Renard²,

Montrichard³

2007

Journal of Experimental Botany

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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 microM) and NADH (k(M)=11 microM) 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.

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Identification and Differential Expression of Two Thioredoxin h Isoforms in Germinating Seeds from Pea

Montrichard

Renard

Alkhalfioui

et al. 2003

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The NADPH/NADP-thioredoxin (Trx) reductase (NTR)/Trx system (NTS) is a redox system that plays a posttranslational regulatory role by reducing protein targets involved in crucial cellular processes in microorganisms and animals. In plants, the system includes several h type Trx isoforms and has been shown to intervene in reserve mobilization during early seedling growth of cereals. To determine whether NTS was operational during germination of legume seeds and which Trx h isoforms could be implicated, Trx h isoforms expression was monitored in germinating pea (Pisum sativum cv Baccara) seeds, together with the amount of NTR and NADPH. Two new isoforms were identified: Trx h3, similar to the two isoforms already described in pea but not expressed in seeds; and the more divergent isoform, Trx h4. Active recombinant proteins were produced in Escherichia coli and used to raise specific antibodies. The expression of new isoforms was analyzed at both mRNA and protein levels. The lack of correlation between mRNA and protein abundances suggests the occurrence of posttranscriptional regulation. Trx h3 protein amount remained constant in both axes and cotyledons of dry and imbibed seeds but then decreased 2 d after radicle protrusion. In contrast, Trx h4 was only expressed in axes of dry and imbibed seeds but not in germinated seeds or in seedlings, therefore appearing as closely linked to germination. The presence of NTR and NADPH in seeds suggests that NTS could be functional during germination. The possible role of Trx h3 and h4 in this context is discussed.

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Michelle Renard

Thioredoxin-Linked Proteins Are Reduced during Germination ofMedicago truncatulaSeeds

Unique properties of NADP-thioredoxin reductase C in legumes

Identification and Differential Expression of Two Thioredoxin h Isoforms in Germinating Seeds from Pea

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