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Poster De Conférence Année : 2012

Accommodation of physiological and molecular responses to successive mechanical bendings in poplar

Résumé

In their natural environment, plants are continuously exposed to highly variable wind loads, and in particular to the days-to-week scale alternation of windy and quiet periods. In response to a single mechanical load, plants usually exhibit a dramatic growth response (thigmomorphogenesis) and genes involved are being characterized. However, molecular mechanisms involved in plant acclimation to recurring and successive mechanical loadings are not well characterized. More specifically how plants avoid over-responding in to continuously changing wind conditions is unknown. Through the analysis of the short-time effects of quantified stem bending on young poplars, we demonstrated the rapid induction of PtaZFP2 expression, a gene encoding a putative C2H2 zinc finger transcription factor. The PtaZFP2 transcripts accumulate 10 min after a single bending and the relative abundance of PtaZFP2 transcripts was linearly correlated with the amount of applied mechanical solicitation (Martin et al., 2009; Coutand et al., 2009). To test the effect of successive bending, young trees were submitted either to one transient bending per day for several days or to two bendings, 1–14 days apart. Our results indicate that both diameter growth and gene expression responses are reduced after several bendings. In particular, PtaZFP2 mRNA accumulated to a lesser extent after two bendings than after a single one. The minimum rest period between two successive loadings necessary to recover a response similar to that observed after a single bending, was 5 days. This response was observed for three other early mechano-responsive genes having different functions in the plant mechanosensing pathway, such as calcium signalling or wall modifications. These results clearly show a partial desensitization of plants to recurrent successive bendings, indicating a day-scale acclimation of sensitivity (accommodation) (Martin et al., 2010). Our objectives are now to identify molecular actors involved in such mechanism by studying the regulation of early responsive gene such as PtaZFP2 (Gourcilleau et al., 2011).

Domaines

Morphogenèse
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Dates et versions

hal-01191376 , version 1 (03-06-2020)

Identifiants

  • HAL Id : hal-01191376 , version 1
  • PRODINRA : 180643

Citer

Nathalie Leblanc-Fournier, Ludovic Martin, Catherine Coutand, Mélanie M. Decourteix, Delphine Gourcilleau, et al.. Accommodation of physiological and molecular responses to successive mechanical bendings in poplar. 7th Plant Biomechanics International Conference, Aug 2012, Clermont-Ferrand, France. INRA - UMR PIAF, 1 p., 2012, 7th Plant Biomechanics International Conference. ⟨hal-01191376⟩
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