Franz Aberl scite author profile

Ahstraet: The detection of anti-human immunodefficiency virus (HIV) antibodies by means of synthetic HIV peptide immobilized on a piezoelectric quartz sensor is demonstrated The measurement set-up consists of an oscillator circuit, a suitably modified AT-cut thickness-shear-mode quartz crystal with gold electrodes, which is housed in a special reaction vessel, and a computercontrolled frequency counter for the registration of the measured frequency values. The quartz crystal is adapted for a steady operation in liquids at a frequency of 20 MHz. In phosphate-buffered saline solution the oscillator reaches a stability of about 0.5 Hz within a few seconds, of about 2 Hz within 10 min and about 30 Hz within 1 h. The frequency shift due to the adsorption of various proteins to the uncoated sensor surface has been investigated. It can be shown that a stable adsorptive binding of proteins to an oscillating gold surface is feasible and can be used for the immobilization of a receptor layer (e.g. HIV peptide). Specific binding of the anti-HIV monoclonal antibody to the HIV peptide immobilized on the quartz sensor is demonstrated. Control experiments show, however, additional unspecific binding. According to the experiments, the Sauerbrey formula gives a sufficiently accurate value for the decrease of the resonant frequency due to adsorption or binding of macromolecular proteins on the quartz crystal surface.

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HIV serology using piezoelectric immunosensors

Aberl

Wolf

Kößlinger³

et al. 1994

Sensors and Actuators B: Chemical

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Quartz crystal microbalance for immunosensing

Kößlinger

Drost

Aberl

et al. 1994

Fresenius J Anal Chem

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Franz Aberl

Comparison of the QCM and the SPR method for surface studies and immunological applications

A quartz crystal biosensor for measurement in liquids

HIV serology using piezoelectric immunosensors

Quartz crystal microbalance for immunosensing

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