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Leaf cuticular lipids on the Shandong and Yukon ecotypes of saltwater cress, Eutrema salsugineum, and their response to water deficiency and impact on cuticle permeability
- Xu, Xiaojing, Feng, Jinchao, Lü, Shiyou, Lohrey, Greg T., An, Huiling, Zhou, Yijun, Jenks, Matthew A.
- Physiologia plantarum 2014 v.151 no.4 pp. 446-458
- Eutrema, alkanes, alleles, chlorophyll, cutin, ecotypes, fatty acids, leaves, metabolism, permeability, saline water, stress tolerance, wilting, China, Yukon Territory
- The impact of water‐deficit stress on leaf cuticular waxes and cutin monomers, and traits associated with cuticle permeability were examined in Shandong and Yukon ecotypes of Eutrema salsugineum (syn. Thellungiella salsuginea). Although Shandong exhibits glaucous leaves, and Yukon is non‐glaucous, wax amounts on non‐stressed Yukon leaves were 4.6‐fold higher than on Shandong, due mainly to Yukon's eightfold higher wax fatty acids, especially the C₂₂ and C₂₄ acid homologues. Water deficit caused a 26.9% increase in total waxes on Shandong leaves, due mainly to increased C₂₂ and C₂₄ acids; and caused 10.2% more wax on Yukon, due mainly to an increase in wax alkanes. Total cutin monomers on non‐stressed leaves of Yukon were 58.3% higher than on Shandong. Water deficit caused a 28.2% increase in total cutin monomers on Shandong, whereas total cutin monomers were not induced on Yukon. With or without stress, more abundant cuticle lipids were generally associated with lower water loss rates, lower chlorophyll efflux rates and an extended time before water deficit‐induced wilting. In response to water deficit, Shandong showed elevated transcription of genes encoding elongase subunits, consistent with the higher stress induction of acids by Shandong. Yukon's higher induction of CER1 and CER3 transcripts may explain why alkanes increased most on Yukon after water deficit. Eutrema, with its diverse cuticle lipids and responsiveness, provides a valuable genetic resource for identifying new genes and alleles effecting cuticle metabolism, and lays groundwork for studies of the cuticle's role in extreme stress tolerance.