AOBPreview originally published online on November 25, 2005
Annals of Botany 2006 97(1):133-140; doi:10.1093/aob/mcj010
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Isolation and Characterization of Four Ascorbate Peroxidase cDNAs Responsive to Water Deficit in Cowpea Leaves
1 Laboratoire d'Ecophysiologie Moléculaire, UMR 137 Biosol, Université Paris 12, 61 avenue du Général de Gaulle, 94010 Créteil Cedex, France and 2 Laboratoire de Géochimie des Eaux – Université Paris 7 and IPGP, 2 place Jussieu – case 7052 – 75251 Paris cedex 05, France
* For correspondence. E-mail lameta{at}univ-paris12.fr
Received: 4 July 2005 Returned for revision: 18 August 2005 Accepted: 30 September 2005 Published electronically: 25 November 2005
• Background and Aims Abiotic stresses stimulate formation of active oxygen species in plant tissues. Among antioxidant mechanisms, H2O2 detoxication by ascorbate peroxidases (APX) plays an important role. Several APX isoforms exist in plant cells, and they have rarely been studied separately. The aim of this work was to study changes in cytosolic, peroxisomal, stromatic and thylakoid APX gene expression in response to progressive drought, rapid desiccation and application of exogenous abscisic acid in the leaves of cowpea (Vigna unguiculata) plants.
• Methods Two cowpea (V. unguiculata) cultivars, ‘EPACE-1’ which is drought-tolerant and ‘1183’which is drought-sensitive, were submitted to drought stress by withholding irrigation. Detached leaves were air-dried or treated with exogenous abscisic acid. APX cDNAs were isolated by PCR and cloned in plasmid vectors. Changes in gene expression were studied using reverse-transcription PCR.
• Key Results Four new V. unguiculata cDNAs encoding putative cytosolic, peroxisomal and chloroplastic (stromatic and thylakoidal) APX were isolated and characterized. In response to the different treatments, higher increases in steady-state transcript levels of the cytoplasmic and peroxisomal APX genes were observed in ‘1183’ compared with ‘EPACE-1’. On the other hand, the expression of the chloroplastic APX genes was stimulated earlier in the tolerant cultivar when submitted to progressive drought.
• Conclusions Water deficit induced differences in transcript accumulation of APX genes between the two cultivars that were related to their respective tolerance to drought. Chloroplastic APX genes responded early to progressive water deficit in the tolerant plant, suggesting a capacity to efficiently detoxify active oxygen species at their production site. The more sensitive ‘1183’ was also able to respond to drought by activating its whole set of APX genes.
Key words: Active oxygen species, drought tolerance, ascorbate peroxidase, abscissic acid, gene expression, Vigna unguiculata
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