Abstract

The cuticle is regarded as a non-living tissue; it remains unknown whether the cuticle could be reversibly modified and what are the potential mechanisms. In this study, three tea germplasms (Wuniuzao, 0202-10, and 0306A) were subjected to water deprivation followed by rehydration. The epicuticular waxes and intracuticular waxes from both leaf surfaces were quantified from the mature 5th leaf. Cuticular transpiration rates were then measured from leaf drying curves, and the correlations between cuticular transpiration rates and cuticular wax coverage were analyzed. We found that the cuticular transpiration barriers were reinforced by drought and reversed by rehydration treatment; the initial weak cuticular transpiration barriers were preferentially reinforced by drought stress, while the original major cuticular transpiration barriers were either strengthened or unaltered. Correlation analysis suggests that cuticle modifications could be realized by selective deposition of specific wax compounds into individual cuticular compartments through multiple mechanisms, including in vivo wax synthesis or transport, dynamic phase separation between epicuticular waxes and the intracuticular waxes, in vitro polymerization, and retro transportation into epidermal cell wall or protoplast for further transformation. Our data suggest that modifications of a limited set of specific wax components from individual cuticular compartments are sufficient to alter cuticular transpiration barrier properties.

Highlights

  • The plant cuticle is a lipophilic layer coating essentially all aerial organs and acts as an interface between plants and environment

  • We found that the cuticular transpiration barriers were reversibly modified by drought and rehydration treatment; in response to drought stress, the initial weak cuticular transpiration barriers were preferentially modified, while the original major cuticular transpiration barriers were either reinforced or remained unaltered

  • At day 12 (D12) of water deprivation (WD), absolute soil water content (ASW) dropped to 28% (Supplementary Figure 2A), and leaf relative water contents (RWCs) were in the range of 39 to 44%

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Summary

Introduction

The plant cuticle is a lipophilic layer coating essentially all aerial organs and acts as an interface between plants and environment. Earlier studies used bulk waxes under the assumption that they could represent the surface; possible differences between EWs and IWs were ignored (Jetter and Schäffer, 2001; Buschhaus and Jetter, 2012; Jetter and Riederer, 2016; Hasanuzzaman et al, 2017; Bueno et al, 2019; Romero and Rose, 2019) As a result, it remains controversial how wax composition is correlated with cuticular transpiration barrier (Riederer and Schreider, 2001; Sánchez et al, 2001; Kosma et al, 2009; Seo et al, 2011; Jetter and Riederer, 2016; Hasanuzzaman et al, 2017)

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