NUCLEIC-ACID DETECTION USING NONRADIOACTIVE LABELING METHODS

Nucleic acid probe-based assays are now widely used in genetic research, human identification, forensics and in a broad spectrum of clinical assays in the fields of microbiology, haematology/oncology and virology. Labelled probes are used in a variety of assay formats including dot-blots, Southern blots (DNA target), Northern blots (RNA target), Western blots (protein target), in situ hybridization, plaque or colony screening and immobilized arrays on silicon or glass surfaces. Traditionally, the probes used in these assays have a radioactive (32)phosphorous label that has a short shelf-life, is dangerous, has high disposal costs and, when labelled to high specific-activity, may be unstable. Extensive efforts to develop alternative labelling techniques have resulted in colorimetric, chemiluminescent and fluorescent assay formats. This review summarizes the properties desired in a probe, describes the advantages and disadvantages of the different nonradioactive labelling strategies, and illustrates examples of probe-based assays in which detection is facilitated by imaging samples using a general purpose fluorescence scanner.