The influence of water on the nanomechanical behavior of the plant biopolyester cutin as studied by AFM and solid-state NMR

Andrew N. Round, Bin Yan, Soa Dang, Racha Estephan, Ruth E. Stark, James D. Batteas

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    Abstract

    Atomic force microscopy and solid-state nuclear magnetic resonance have been used to investigate the effect of water absorption on the nanoscale elastic properties of the biopolyester, cutin, isolated from tomato fruit cuticle. Changes in the humidity and temperature at which fruits are grown or stored can affect the plant surface (cuticle) and modify its susceptibility to pathogenic attack by altering the cuticle's rheological properties. In this work, atomic force microscopy measurements of the surface mechanical properties of isolated plant cutin have been made as a first step to probing the impact of water uptake from the environment on surface flexibility. A dramatic decrease in surface elastic modulus (from similar to 32 to similar to6 MPa) accompanies increases in water content as small as 2 wt %. Complementary solid-state nuclear magnetic resonance measurements reveal enhanced local mobility of the acyl chain segments with increasing water content, even at molecular sites remote from the covalent cross-links that are likely to play a crucial role in cutin's elastic properties.
    Original languageEnglish
    Pages (from-to)2761-2767
    Number of pages7
    JournalBiophysical Journal
    Volume79
    Issue number5
    DOIs
    Publication statusPublished - 2000

    Keywords

    • ATOMIC-FORCE MICROSCOPY
    • SEPARATION
    • PROPERTIES
    • NUCLEAR-MAGNETIC-RESONANCE
    • SUBERIN
    • CALIBRATION
    • DYNAMICS
    • FRICTION
    • ELASTIC
    • PROBES
    • POLYESTER

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