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Poster De Conférence Année : 2015

Hydraulics of transgenic grapevines overexpressing a PIP2 aquaporin

Résumé

We constitutively overexpressed VvPIP2;4N in Vitis vinifera L. ‘Brachetto’ and in the resulting transgenic plants we analysed i) the expression of endogenous and transgenic VvPIP2;4N and of four other aquaporins, ii) whole-plant, root, and leaf ecophysiological parameters, and iii) leaf abscisic acid content. Expression of transgenic VvPIP2;4N inhibited neither the expression of the endogenous gene nor that of other PIP aquaporins in both root and leaf. Under wellwatered conditions, transgenic plants showed higher stomatal conductance, gas exchange, and shoot growth. The expression level of VvPIP2;4N (endogenous + transgene) was inversely correlated to root hydraulic resistance. The leaf component of total plant hydraulic resistance was low and unaffected by overexpression of VvPIP2;4N. Upon water stress, the overexpression of VvPIP2;4N induced a surge in leaf abscisic acid content, and a decrease in stomatal conductance and leaf gas exchange. Our results show that aquaporin-mediated modifications of root hydraulics play a substantial role in the regulation of water flow in wellwatered grapevine plants, while they have a minor role upon drought, probably because other signals, such as ABA, take over control of water flow. On detached leaves, hydraulic capacitance (Ch) and resistance (Rh) were assessed following recovery dynamics after leaf dehydration. The dehydration was imposed by submitting the leaves at 0.5 to 1 MPa overpressure through a Scholander bomb. The recovery after dehydration was checked in dark, in light non-transpirative condition, and in lighttranspirative condition. In leaves processed in dark conditions, Rh decreased and Ch increased compared to wild type plants, suggesting that in transgenic leaves, trans-cellular pathways activated during dehydration superimposed on apoplastic ones, saving water inside cells, as in/out cell-to-apoplasm water movements were aquaporin-controlled. Upon light, either when leaves transpired or not (either by depressing vapor pressure deficit or by feeding leaves with abscisic acid, causing stomatal closure) the described effects disappeared. We conclude that light activates leaf aquaporins masking the transgene effect on controlling leaf Ch and Rh, and confirming that the in-vivo leaf hydraulics is not affected by transgenic aquaporin VvPIP2;4N overexpression.
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Dates et versions

hal-01269262 , version 1 (03-06-2020)

Identifiants

  • HAL Id : hal-01269262 , version 1
  • PRODINRA : 324973

Citer

Marco Vitali, Hervé H. Cochard, Alexandre Ponomarenko, Andrea Schubert, Irene Perrone, et al.. Hydraulics of transgenic grapevines overexpressing a PIP2 aquaporin. Xylem International Meeting, Sep 2015, Bordeaux, France. INRA - Université de Bordeaux, 86 p., 2015, Xylem International Meeting. ⟨hal-01269262⟩
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