Matthias Burgener scite author profile

The correspondence of the state of alignment of macromolecules in biomimetic materials and natural tissues is demonstrated by investigating a mechanism of electrical polarity formation: An in vitro grown biomimetic FAp/gelatin composite is investigated for its polar properties by second harmonic (SHGM) and scanning pyroelectric microscopy (SPEM). Hexagonal prismatic seed crystals formed in gelatin gels represent a monodomain polar state, due to aligned mineralized gelatin molecules. Later growth stages, showing dumbbell morphologies, develop into a bipolar state because of surface recognition by gelatin functionality: A reversal of the polar alignment of macromolecules, thus, takes place close to that basal plane of the seed. In natural hard tissues (teeth and bone investigated by SPEM) and the biomimetic FAp/gelatin composite, we find a surprising analogy in view of growth-induced states of polarity: The development of polarity in vivo and in vitro can be explained by a Markov-type mechanism of molecular recognition during the attachment of macromolecules.

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Barium hydrogen phosphate/gelatin composites versus gelatin-free barium hydrogen phosphate: Synthesis and characterization of properties

Gashti

Burgener

Stir

et al. 2014

Journal of Colloid and Interface Science

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Synthesis of a Stable and Specific Surface Plasmon Resonance Biosensor Surface Employing Covalently Immobilized Peptide Nucleic Acids

2000

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Biosensors allow the real-time and label-free observation of biochemical reactions between various ligands including antigen-antibody reactions and nucleic acids hybridizations. In our studies, we used a surface plasmon resonance biosensor to elucidate the hybridization characteristics of a peptide nucleic acid (PNA) ligand immobilized on sensor surfaces either through covalent or streptavidin-biotin coupling. A biotin-labeled PNA was employed in the latter approach whereas the covalent immobilization included the following steps: A maleimide group was attached to the N-terminal of the PNA using N-succinimidyl 4-(N-maleimidomethyl)-cyclohexane-1-carboxylate (SMCC). To generate free thiol groups for coupling, a carboxylated dextran matrix of the sensor surface was activated with N-hydroxysuccinimide (NHS) and N-ethyl-N'-(dimethylaminopropyl)-carbodiimide (EDC) and thiolated by addition of cystamine dihydrochloride followed by reduction with 1, 4-dithioerythrite (DTE). Finally, the modified PNA was coupled to the sulfhydryl groups of the activated dextran matrix. Repetitive hybridizations of a single-stranded synthetic DNA oligomer to the PNAs demonstrated the superior stability of covalent immobilization compared to noncovalent immobilization. Differentiation of point mutations in the analyte molecule was accomplished at 40 degrees C using guanidine thiocyanate concentrations of 1.5-1.7 M. In further experiments, we showed that a perfectly matched PNA allows the detection of a single-stranded DNA at a sensitivity of less than 1% in a background of single-stranded DNA having a single C to T point mutation in the region complementary to the PNA. Consequently, covalently bound PNAs provide a stable and reproducible environment for the development of mutation-specific DNA analysis assays.

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Mitochondrial DNA enrichment for species identification and evolutionary analysis

Burgener

Hübner

1998

Zeitschrift f�r Lebensmitteluntersuchung und -Forschung A

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