RT-PCR of long prokaryotic operon transcripts without DNase treatment.

RT-PCR is a powerful technique used in the amplification and detection of rare mRNAs. However, one of the most serious drawbacks of this method is the amplification of false-positive products due to DNA contamination in the RNA samples. This pitfall is particularly hard to overcome when RNA from prokaryotic origin is used. We present here a modification of the EXACT RT-PCR method that was successfully employed in the amplification of the low abundant full-length polycistronic pst operon mRNA of Escherichia coli. No DNase treatment of the RNA template is required, but unlike the original EXACT RT-PCR, a hybrid primer that is not composed of oligo(dT) was used. A nonhomologous sequence was incorporated at the reverse transcription step into the 5' end of the first-strand cDNA by means of the hybrid primer. For the PCR, a gene-specific primer and a second primer identical to the nonhomologous portion of the hybrid primer were used. To avoid amplification of genomic DNA, the hybrid-primer molecules that were not incorporated into the first-strand cDNA were removed by RNase H treatment followed by ultrafiltration.