Angelika Fischer scite author profile

Biological surfaces are multifunctional interfaces between the organisms and their environment. Properties such as the wettability and adhesion of particles are linked to the micro- and nanostructures of their surfaces. In this study, we used plant and artificial surfaces covered with wax crystals to develop a low-cost replication technique with high resolution. The technique is applicable for fragile surface structures, as demonstrated for three-dimensional wax crystals, and is fast to prevent shrinking of the biological material by water loss during the molding process. Thermal evaporation of octacosan-1-ol has been used to create microstructured surfaces with small platelets as templates for molding. Epoxy resin as filling material provided the smallest deviations from the original surface structures and can be used for replication of nanostructures as small as 4.5 nm. Contact angle measurements of leaves and their replicas show that this technique can be used to develop biomimetic surfaces with similar wettability as in the plant surfaces.

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Molecular-genetic and Chemotaxonomic Studies on Actinomadura and Nocardiopsis

Fischer

Kroppenstedt

Stackebrandt

1983

Microbiology

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The relationships of 24 strains of 13 species of Actinomadura and 4 strains of Nocardiopsis dassonvillei were determined by nucleic acid hybridization studies. DNA-rRNA cistron similarity and DNA homology values reveal that Actinomadura is genetically heterogeneous. One cluster contained the type species Actinomadura madurae, Actinomadura pelletieri, Actinomadura verrucosospora, Actinomadura malachitica, Actinomadura citrea and 'Actinomadura kijaniata'. A second cluster embraced Actinomadura pusilla, Actinomadura roseoviolacea, Actinomadura libanotica, Actinomadura roseola and Actinomadura ferruginea. The internal homogeneity of the two Actinomadura clusters was demonstrated by a high similarity in the menaquinone and fatty acid composition of the strains enclosed. Actinomadura spadix, Actinomadura spiralis, and two strains of Actinomadura madurae were found to be unrelated to each other and could not be allocated to one of the two major Actinomadura clusters. Nocardiopsis dassonvillei was genetically and phenotypically clearly separated from all Actinomadura species investigated.

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The phylogenetic position of the budding bacteria Blastobacter aggregatus and Gemmobacter aquatilis gen., nov. sp. nov.

et al. 1987

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DNA-DNA Reassociation and Chemotaxonomic Studies on Actinomadura, Microbispora, Microtetraspora, Micropolyspora and Nocardiopsis

Poschner

Kroppenstedt

Fischer

et al. 1985

Systematic and Applied Microbiology

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