Detection of target RNA by in situ hybridization (ISH) in the classic and confocal fluorescence microscope was performed using strand-specific single-stranded RNA probes labeled directly with the fluorochromes fluorescein isothiocyanate or Texas red. The probes, produced by in vitro transcription from PCR-generated templates with T7 RNA polymerase and fluorochromized UTP, gave ISH signals directly visible by fluorescence microscopy without the use of any immunological detection step. In avoiding antibodies, it was possible to strongly increase the sensitivity of the ISH since antibodies may contain RNase which can reduce hybridization signals considerably, even beyond the detection limit. Fluorescent RNA probes thus allowed for the detection of low numbers of target molecules per cell, such as minus strand intermediates in picornavirus RNA replication. Using appropriate denaturing conditions, the targets could be visualized in a double-stranded configuration as well as in the presence of a 100-fold excess of complementary RNA. Furthermore, double ISH for the simultaneous detection of two different RNA species, such as plus and minus strand RNA of poliovirus, or of different regions of the viral genomic RNA was possible with appropriate fluorescent strand-specific probes labeled with different fluorochromes. Combination of ISH and immunofluorescence was found feasible if RNA was present in relatively large amounts. In addition to the investigation of virus replication, possible applications of fluorochromized RNA probes might include antisense RNA detection as well as plant virus resistance and gene silencing.