A universal immuno-PCR platform for comparative and ultrasensitive quantification of dual affinity-tagged proteins in complex matrices.

Protein detection in complex biological fluids and matrices has become a widely diversified field utilizing a number of different technologies. The quantification of target proteins in complex media such as serum remains a challenge for most technologies such as mass spectrometry, ELISA and western blot. Quantitative Immuno-PCR has been heavily used for antigen detection in immunoassays, but minimally so for quantifying affinity-tagged proteins expressed or circulating in complex matrices--despite its high sensitivity and robustness--because it suffers from detrimental background effects arising from its extreme detection power.

IgG-detection devices for the Tus-Ter-lock immuno-PCR diagnostic platform.

The number of new Immuno-PCR technologies and applications is steadily growing as a result of a general need for more sensitive immunoassays for early detection of diseases. Although Immuno-PCR has been demonstrated to be superior to its immunoassay counterpart, it is still regarded as a challenging technology due to various problems arising from its increased detection power, such as high background noise as well as substantial batch-to-batch reproducibility issues. Current efforts have intensified to produce homogeneous universal protein-DNA conjugates to simplify this technology and render it more robust.

Development of a protease activity assay using heat-sensitive Tus-GFP fusion protein substrates.

Proteases are implicated in various diseases and several have been identified as potential drug targets or biomarkers. As a result, protease activity assays that can be performed in high throughput are essential for the screening of inhibitors in drug discovery programs. Here we describe the development of a simple, general method for the characterization of protease activity and its use for inhibitor screening.