The similarity of the Arrhenius plots relating temperature to messenger RNA (mRNA) transport from intact and membrane-denuded rat liver nuclei demonstrates that the ATP and cytosol-dependent transport is independent of the lipid phase of the nuclear membrane. This temperature dependence of RNA release was confirmed for alpha 2u-globulin mRNA by use of a recombinant DNA probe. Ribosomal RNA (rRNA) release showed a similar temperature dependence, suggesting that both mRNA and rRNA share a common temperature-sensitive step. The kinetics of RNA release at different temperatures suggest that RNA transport from mammalian cell nuclei is a rate-controlled rather than a graded unlocking phenomenon. The processing of mRNA precursors also exhibits a temperature dependence as shown by the linear increase in the ratio of total alpha 2u-globulin RNA to alpha 2u-globulin precursor as a function of time at 30 degrees C but not at 14 degrees C in spite of residual transport at the lower temperature. This temperature dependence of mRNA processing was confirmed by Northern blot analysis of the nuclear RNA following a 45 min incubation. Thus, both the processing and transport of RNA show temperature-sensitive steps when analyzed in cell-free systems derived from mammalian cells.