DNA-dependent RNA polymerase II from Acanthamoeba castellanii. Comparison of the catalytic properties and subunit architectures of the trophozoite and cyst enzymes.

The actively growing cells (trophozoites) of the amoeba Acanthamoeba castellanii were found to contain three or perhaps four different forms of class II DNA-dependent RNA polymerase (EC 2.7.7.6). The chromatographic and catalytic properties of all forms of the Acanthamoeba class II polymerases suggest them to be cognates of the class II polymerases previously reported. The predominant form was purified to near homogeneity and its subunit composition determined. Nine different polypeptides were found associated with the purified enzyme: 21 000; 185 000; 140 000; 70 000; 35 000; 21 000; 19 000; 18 500 and 16 200. These polypeptides were interpreted in terms of two class II RNA polymerases which differ in the molecular weight of their largest subunit. When A. castellanii is transferred to a medium lacking nutrients, the cells undergo cellular differentiation resulting in the formation of metabolically inactive cells (cyst formation). During this process there are significant changes in the RNA sequences transcribed. In contrast to this, we find that the chromatographic and catalytic properties of all of the class II RNA polymerases remain unchanged. Further, the subunit architecture of the predominant form(s) of polymerase II is unaltered. These findings suggest that although new RNA sequences are transcribed during encystment their appearance is not a consequence of extensive alterations in the subunit composition of the major class II RNA polymerase.