Factors influencing RNA degradation by Thermus thermophilus polynucleotide phosphorylase.

At the optimal temperature (65 degrees C), Thermus thermophilus polynucleotide phosphorylase (Tth PNPase), produced in Escherichia coli cells and isolated to functional homogeneity, completely destroys RNAs that possess even a very stable intramolecular secondary structure, but leaves intact RNAs whose 3' end is protected by chemical modification or by hybridization with a complementary oligonucleotide. This allows individual RNAs to be isolated from heterogeneous populations by degrading unprotected species. If oligonucleotide is hybridized to an internal RNA segment, the Tth PNPase stalls eight nucleotides downstream of that segment.

Simultaneous assay of DNA and RNA targets in the whole blood using novel isolation procedure and molecular colony amplification.

A universal procedure that permits the whole human blood to be tested for the presence of single molecules of DNA and RNA targets is described. The procedure includes a novel protocol for the isolation of total nucleic acids from the guanidinium thiocyanate lysate of unfractionated blood in which, prior to phenol/chloroform extraction, the sample is deproteinized by precipitation with isopropanol. The procedure results in a nearly 100% yield of DNA and RNA, preserves the integrity of RNA, and removes any polymerase chain reaction (PCR) inhibitors.