Urea substitutes toxic formamide as destabilizing agent in nucleic acid hybridizations with RNA probes.

Since their introduction some three decades ago, methods for hybridization analysis of nucleic acids immobilized on solid supports have evolved to improve the sensitivity, speed, and convenience of their application. However, in many cases these methods still require the use of solutions containing formamide, a recognized hazardous solvent with potential toxicity. Here, we have compared the efficiency of urea to that of formamide as denaturing agent in nucleic acid hybridization with RNA probes. We show that urea at concentrations of 2-4 molar in solution performs as good as 50% formamide to reduce heterologous background hybridization in Northern blotting experiments realized at 68 degrees C. Presence of urea at higher concentrations resulted in reduced hybridization sensitivity, possibly due to increased viscosity. When tested in Southern blot analysis of genomic DNA, our results revealed that the use of urea in hybridization solution is also suitable to carry out single-copy gene detection. Together, these findings show that urea can efficiently and safely replace formamide in solutions.