Fluorescent determination of micro-quantities of RNA using Hoechst 33258 and binase.

Detection of small amounts of RNA in various biological samples is an important applied task. Using fluorescence spectroscopy, the hydrolysis by binase of rRNA and tRNA, stained with Hoechst 33258, in aqueous solutions was investigated. The binding constant of Hoechst with rRNA is 106 M-1. Specific hydrolysis of rRNA and tRNA by binase during 1-2 min at room temperature leads to a multiple decrease in fluorescence of the dye. This rapid hydrolysis goes to large polynucleotide fragments, but not to short oligonucleotides. The binding constant of binase with rRNA is about of 2.5 × 106 M-1, which is several dozen times higher than with oligonucleotides. The susceptibility to binase attack depends on the secondary structure of RNA, determined by non-canonical ribonucleotides. The developed highly sensitive fluorescent method can be used for the rapid selective detection of trace amounts of rRNA or tRNA, as well as for studying the physicochemical properties of these RNAs. Using the proposed method, one can confidently detect RNA from 10-7 M.