Assay of proteolytic enzymes by the fluorescence polarization technique

Insoluble dye-protein complexes offer many advantages when used as substrates for proteolytie enzymes. The proteolytic split products can be separated from the starting substrat.e conveniently by filtration, and the concentration of the soluble colored products of hydrolysis can easily be measured a

We have previously reported that the kinase catalyzed conversion of fluorescently labeled phosphate acceptor peptides to the corresponding phosphopeptides can be conveniently followed by measuring the fluorescence polarization signal in the presence of polyarginine. In the present work, we demonstra

Recently developed fluorescent enzyme imrnunoassays (FEls) for follitropin (FSH) and lutropin (LH) designed for the Stratus analyzer were compared with a typical dual FSH-LH radioimmunoassay (RIA) procedure. The FEls use monoclonal antibodies in a sandwich reaction scheme similar to that of immunor

A sensitive, microplate assay is described for the detection of a wide range of proteolytic enzymes, using radio-iodine-labeled gelatin as substrate. The technique uses the Bolton-Hunter reagent to label the substrate, which is then coated onto the wells of polyvinyl chloride microtiter plates. By m

We have studied the interaction of several phosphopeptides with cationic polyamino acids such as polyarginine and polylysine by fluorescence polarization. The phosphopeptides used were labeled with fluorescein, and their net charges at the experimental pH of 7.5 were 0, ؊1, ؊2, and ؊3. These phospho