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  • Title: Total internal reflectance fluorescence (TIRF) biosensor for environmental monitoring of testosterone with commercially available immunochemistry: antibody characterization, assay development and real sample measurements.
    Author: Tschmelak J, Kumpf M, Käppel N, Proll G, Gauglitz G.
    Journal: Talanta; 2006 Apr 15; 69(2):343-50. PubMed ID: 18970572.
    Abstract:
    Nowadays, little technology exists that can monitor various water sources quickly and at a reasonable cost. The ultra-sensitive, fully automated and robust biosensor River Analyser (RIANA) is capable of detecting multiple organic targets rapidly and simultaneously at a heterogeneous assay format (solid phase: bulk optical glass transducers). Commercialization of such a biosensor requires the availability of commercial high-affinity recognition elements (e.g. antibodies) and suitable commercial haptens (modified target molecules) for surface chemistry. Therfore, testosterone was chosen as model analyte, which is also a task of common analytical methods like gas chromatography-mass spectrometry (GC-MS), because they have to struggle with detecting sub-nanogram per liter levels in environmental samples. The reflectometric interference spectroscopy (RIfS) was used to characterize the commercially available immunochemistry resulting in a high-affinity constant of 2.6+/-0.3 x 10(9)mol(-1) for the unlabeled antibody. After the labeling procedure, necessary for the TIRF-based biosensor, a mean affinity constant of 1.2 x 10(9)mol(-1) was calculated out of RIfS (1.4+/-0.4 x 10(9)mol(-1)) and TIRF (1.0+/-0.3 x 10(9)mol(-1)) measurements. Thereafter, the TIRF-based biosensor setup was used to determine the steroidal hormone testosterone at real world samples without sample pre-treatment or sample pre-concentration. Results are shown for rapid and ultra-sensitive analyses of testosterone in aqueous samples with at a remarkable limit of detection (LOD) of 0.2 ng L(-1). All real world samples, even those containing testosterone in the sub-nanogram per liter range (e.g. 0.9 ng L(-1)), could be determined with recovery rates between 70 and 120%. Therefore, the sensor system is perfectly suited to serve as a low-cost system for surveillance and early warning in environmental analysis in addition to the common analytical methods. For the first time, commercially available immunochemistry was fully characterized using a label-free detection method (RIfS) and successfully incorporated into a TIRF-based biosensor setup (RIANA) for reliable sub-nanogram per liter detection of testosterone in aqueous environmental samples.
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