Sub-nuclear fractionation: II. Intranuclear compartmentation of transcription in vivo and in vitro

Abstract

DNA-dependent RNA polymerase activities were measured in subnuclear fractions obtained from rat liver by the procedure described in the preceding paper [14]. Most of the total nuclear enzyme was recovered in a form bound to chromatin with only small amounts as free enzyme in the nucleoplasm. The multiple eukaryotic RNA polymerases were resolved according to the endogenous template to which they were bound and which they continue to transcribe in vitro. The A and B forms of the enzyme were distinguished from each other by their differential sensitivities to α-amanitin, exogenous native and denatured DNA, thermal denaturation at 45 °, Mg 2+ and Mn 2 ions, high ionic strength and by the binding of 14 C-methyl-γ- amanitin . RNA polymerase B (α-amanitin-sensitive) was exclusively recovered in the nucleoplasmic and euchromatin fractions. RNA polymerase A was recovered in the dispersed nucleolar as well as in heterochromatin. By assaying in the presence of α-amanitin subnuclear fractions that had been pre-incubated at 45 °C a third enzyme (form C) was located exclusively in heterochromatin fractions. Only the euchromatin associated RNA polymerase B was capable of initiating the synthesis of new RNA chains in vitro on endogenous template at low ionic strength. Raising the ionic strength abolished initiation but accelerated chain elongation by this form of enzyme. When nuclear RNA was labelled in vivo, newly made RNA turned over rapidly in the nucleoplasm but accumulated in the euchromatin + membrane fraction. RNA in the nucleolar fraction accumulated gradually after a lag period, whereas a significant amount of rapidly-labelled nuclear RNA was recovered in the heterochromatin fractions. The distribution of RNA labelled in vivo compared with that of RNA polymerase activities suggested that RNA synthesized in vivo is rapidly translocated from its site of synthesis to some other sites within the nucleus.