Martin Hegner scite author profile

We report a microarray of cantilevers to detect multiple unlabeled biomolecules simultaneously at nanomolar concentrations within minutes. Ligand-receptor binding interactions such as DNA hybridization or protein recognition occurring on microfabricated silicon cantilevers generate nanomechanical bending, which is detected optically in situ. Differential measurements including reference cantilevers on an array of eight sensors can sequence-specifically detect unlabeled DNA targets in 80-fold excess of nonmatching DNA as a background and discriminate 3 and 5 overhangs. Our experiments suggest that the nanomechanical motion originates from predominantly steric hindrance effects and depends on the concentration of DNA molecules in solution. We show that cantilever arrays can be used to investigate the thermodynamics of biomolecular interactions mechanically, and we have found that the specificity of the reaction on a cantilever is consistent with solution data. Hence cantilever arrays permit multiple binding assays in parallel and can detect femtomoles of DNA on the cantilever at a DNA concentration in solution of 75 nM.

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Ultralarge atomically flat template-stripped Au surfaces for scanning probe microscopy

Hegner¹,

Wagner²,

Semenza³

1993

Surface Science

508

466

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Specific antigen/antibody interactions measured by force microscopy

Dammer

Hegner

Anselmetti

et al. 1996

Biophysical Journal

430

303

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Molecular recognition between biotinylated bovine serum albumin and polyclonal, biotin-directed IG antibodies has been measured directly under various buffer conditions using an atomic force microscope (AFM). It was found that even highly structured molecules such as IgG antibodies preserve their specific affinity to their antigens when probed with an AFM in the force mode. We could measure the rupture force between individual antibody-antigen complexes. The potential and limitations of this new approach for the measurement of individual antigen/antibody interactions and some possible applications are discussed.

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Martin Hegner

Multiple label-free biodetection and quantitative DNA-binding assays on a nanomechanical cantilever array

Ultralarge atomically flat template-stripped Au surfaces for scanning probe microscopy

Specific antigen/antibody interactions measured by force microscopy

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