Nanotubules on plant surfaces: Chemical composition of epicuticular wax crystals on needles of Taxus baccata L

Various sampling protocols were employed to study the chemical composition of yew needle waxes with high spatial resolution. GC–MS analyses of the resulting preparations provided direct evidence that the tubular wax crystals on the needle surfaces contained high percentages of alkanediols and nonaco...

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Bibliographic Details
Published in:Phytochemistry (Oxford) 2006-08, Vol.67 (16), p.1808-1817
Main Authors: Wen, Miao, Buschhaus, Christopher, Jetter, Reinhard
Format: Article
Language:English
Subjects:
Biological and medical sciences
chemical composition
chemical constituents of plants
Chemical constitution
Chromatography, Gas
conifer needles
crystals
Cuticular wax
epicuticular wax
Fundamental and applied biological sciences. Psychology
Microscopy, Electron, Scanning
Nanotechnology
Plant Leaves - chemistry
Plant physiology and development
Secondary alcohols
Surface composition
Taxaceae
Taxus - chemistry
Taxus baccata
Waxes - chemistry
Yew needles
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Summary:Various sampling protocols were employed to study the chemical composition of yew needle waxes with high spatial resolution. GC–MS analyses of the resulting preparations provided direct evidence that the tubular wax crystals on the needle surfaces contained high percentages of alkanediols and nonacosan-10-ol on the abaxial and adaxial surfaces of the needles, respectively. Needles of Taxus baccata L. were covered with tubular epicuticular wax crystals varying in diameters (100 and 250 nm) and lengths (300–500 and 500–1000 nm) on the abaxial and adaxial surfaces, respectively. Various sampling protocols were employed to study the chemical composition of the needle waxes on three different levels of spatial resolution. First, a dipping extraction of whole needles yielded the total cuticular wax mixture consisting of very long chain fatty acids (21%), alkanediols (19%), phenyl esters (15%), and secondary alcohols (9%) together with small amounts of aldehydes, primary alcohols, alkanes, alkyl esters, and tocopherols. Second, waxes from both sides of the needle were sampled separately by brushing with CHCl 3-soaked fabric glass. Both sides showed very similar qualitative composition, but differed drastically in quantitative aspects, with nonacosan-10-ol (18%) and alkanediols (33%) dominating the abaxial and adaxial waxes, respectively. Third, the epi- and intracuticular wax layers were selectively sampled by a combination of mechanical wax removal and brushing extraction. This provided direct evidence that the tubular wax crystals contained high percentages of nonacosane-4,10-diol and nonacosane-5,10-diol on the abaxial surface, and nonacosan-10-ol on the adaxial surface of the needles. Together with these compounds, relatively large amounts of fatty acids and smaller percentages of aldehydes, primary alcohols, alkyl esters, and alkanes co-crystallized in the epicuticular layer. In comparison, the intracuticular wax consisted of higher portions of cyclic constituents and aliphatics with relatively high polarity. The formation of the tubular crystals is discussed as a spontaneous physico-chemical process, involving the establishment of gradients between the epi- and intracuticular wax layers and local phase separation.
ISSN:0031-9422
1873-3700
DOI:10.1016/j.phytochem.2006.01.018