Self assembly of epicuticular waxes on living plant surfaces imaged by atomic force microscopy (AFM)

Self assembly of epicuticular waxes on living plant surfaces imaged by atomic force microscopy (AFM)

The cuticle of terrestrial vascular plants and some bryophytes is covered with a complex mixture of lipids, usually called epicuticular waxes. Self-assembly processes of wax molecules lead to crystalline three-dimensional micro- and nanostructures that emerge from an underlying wax film. This paper...

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Veröffentlicht in:Journal of experimental botany 2004-03, Vol.55 (397), p.711-718
Hauptverfasser: Koch, K, Neinhuis, C, Ensikat, H.J, Barthlott, W
Format: Artikel
Sprache:eng
Schlagworte:
Atomic force microscopy
Atomic force microscopy (AFM)
Biological and medical sciences
Cell biochemistry
Cell physiology
Chemical composition
crystallization
Crystals
Epicuticular wax
epicuticular waxes
Euphorbia - metabolism
Euphorbia - ultrastructure
Fundamental and applied biological sciences. Psychology
Galanthus - metabolism
Galanthus - ultrastructure
Leaves
Magnoliopsida - metabolism
Magnoliopsida - ultrastructure
Microscopy, Atomic Force - methods
Microscopy, Electron, Scanning
Molecules
nanostructures
Plant biochemistry
Plant cuticle
Plant Leaves - metabolism
Plant Leaves - ultrastructure
Plant physiology and development
Plants
regeneration
Research Papers: Regulation of Growth, Development and Whole Organism Physiology
scanning electron microscopy (SEM)
self assembly
Waxes
Waxes - chemistry
Waxes - metabolism
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Beschreibung
Zusammenfassung:The cuticle of terrestrial vascular plants and some bryophytes is covered with a complex mixture of lipids, usually called epicuticular waxes. Self-assembly processes of wax molecules lead to crystalline three-dimensional micro- and nanostructures that emerge from an underlying wax film. This paper presents the first AFM study on wax regeneration on the surfaces of living plants and the very early stages of wax crystal formation at the molecular level. Wax formation was analysed on the leaves of Euphorbia lathyris, Galanthus nivalis, and Ipheion uniflorum. Immediately after wax removal, regeneration of a wax film began, consisting of individual layers of, typically, 3-5 nm thickness. Subsequently, several different stages of crystal growth could be distinguished, and different patterns of wax regeneration as well as considerable variation in regeneration speed were found.
ISSN:0022-0957
1460-2431
1460-2431
DOI:10.1093/jxb/erh077