Abstract
Eucalyptus trees and many plants from the grass family (Poaceae) and the heather family (Ericaceae) have a protective multifunctional wax coating on their surfaces made of branched ß-diketone tubules. ß-diketone tubules have a different size, shape, and chemical composition than the well-described nonacosanol tubules of the superhydrophobic leaves of lotus (Nelumbo nucifera). Until now the formation process of ß-diketone tubules is unknown. In this study, extracted wax of E. gunnii leaves and pure ß-diketone were recrystallized on two different artificial materials and analyzed by scanning electron microscopy (SEM) and atomic force microscopy (AFM) to study their formation process. Both the wax mixture and pure ß-diketone formed tubules similar to those on E. gunnii leaves. Deviating platelet-shaped and layered structures not found on leaves were also formed, especially on areas with high mass accumulation. High-resolution AFM images of recrystallized ß-diketone tubules are presented for the first time. The data showed that ß-diketone tubules are formed by self-assembly and confirmed that ß-diketone is the shape-determining component for this type of tubules.
Highlights
The plant cuticle, which is the largest biological interface, covers all aerial non-lignified parts of higher plants [1]
In areas of very high mass accumulation, both substances assembled into plates with a random orientation and into tubules on both substrates
Tubules were recrystallized from E. gunnii wax and from a ß-diketone solution on artificial substrates
Summary
The plant cuticle, which is the largest biological interface, covers all aerial non-lignified parts of higher plants [1]. It is an extracellular membrane of epidermal cells, consisting of a matrix of the polymer cutin and a mixture of hydrophobic compounds, the cuticular waxes [2,3]. This interface is a multifunctional surface optimized by evolution to protect plants from environmental stress [4]. The former is incorporated into the cutin matrix and the latter is deposited on the cutin layer, building the outermost layer of the cuticle
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