Dual labeling of a binding protein allows for specific fluorescence detection of native protein

Up-Converting Phosphor Technology (UPT) is based on lanthanide-containing, submicrometer-sized, ceramic particles that can absorb infrared light and emit visible light. Biological matrices do not up-convert; hence, there is no contribution to test background from sample autofluorescence. Up-converting phosphors do not photobleach and are inert to common assay interferants such as hemoglobin. A reader called UPlink has been developed to interrogate lateral flow test strips that utilize UPT labels. The reader contains a miniaturized, 1-W, infrared laser with peak emission at 980 nm. Preliminary assays that use up-converting phosphor labels, including tests for a drugs of abuse panel and Escherichia coli O157:H7, have been developed. In a "sandwich" assay format, 10(3) org/mL E. coli O157:H7 organisms were detectable in a negative control background of 10(9) other organisms per milliliter of culture medium. Coefficients of variation in concentrations tested from 0 to 10(7) org/mL were all < or =10%. In a competitive inhibition assay format, a multiplexed test simultaneously detected amphetamine, methamphetamine, phencyclidine, and opiates in saliva. For all assays, the percent displacement at 10 ng/mL was > or =40% demonstrating performance comparable with lab-based, commercially available EIAs. All assays were complete in 10 min. The development of rapid tests using UPT creates new applications for on-site testing with sensitivity not available using other label technologies.