A DNA-binding protein specific for the early replicated region of the chromosome obtained from Escherichia coli membrane fractions

The binding sites of calf thymus RNA polymerase (B) II, wheat germ RNA polymerase B and of the Escherichia coli RNA polymerase were mapped on the simian virus 40 genome by observation of enzyme-linear DNA complexes by electron microscopy. Three to four major sites and several minor sites are observed for each enzyme; common binding sites for the three enzymes are found in positions 0.17, 0.53 and 0.90 of the viral physical map. Initiation complexes with these enzymes can be stabilized with specific ribodinucleotides and a single ribonucleoside triphosphate. Whereas ApA and ATP greatly enhances the binding of the E. coli enzyme at position 0.17, they stabilize the binding of the eukaryotic enzyme at many sites, some of them located in close proximity of the origin of replication.     

Purification using polyethylenimine precipitation and low molecular weight subunit analyses of calf thymus and wheat germ DNA-dependent RNA polymerase II

DNA-dependent RNA polymerase II from calf thymus has been successfully purified using polythylenimine precipitation. Thus, 5-6 mg of nearly homogeneous homogeneous trna polymerase II (greater than 96% pure) can be prepared from 1 kg of calf thymus with three chromatography steps following extraction and precipitation of the enzyme from the polyethylenimine pellet. This procedure eliminates the high salt extraction of chromatin previously used in purification of this enzyme and makes possible the large scale preparation of mammalian RNA polymerase II. Calf thymus polymerase II prepared by this method is greater than 90% form IIb and consists of ten different subunits having the following molecular weights: 180 000; 145 000; 36 000; 25 000; 20 000; 18 500; 16 000; 15 000; 12 000; 11 500. The homologous enzyme isolated from wheat germ is greater than 90% form IIa and contains subunits of the following molecular weights: 206 000; 145 000; 44 000-47 000; 24 500; 21 000; 19 000; 17 000; 14 000; 13 500. The wheat germ and calf thymus enzymes exhibit similar subunits structures, but the molecular weights of individual subunits are clearly different between the enzymes. Wheat germ RNA polymerase II is 50% inhibited by 0.271 microng/mL of alpha-amanitin, a level 30-fold higher than that found for calf thymus RNA polymerase II. These enzymes are further distinguished by the absence of antigenic cross reactivity.     

Immunological studies of RNA polymerase II using antibodies to subunits of Drosophila and wheat germ enzyme

We induced goat antibodies to Drosophila RNA polymerase II and rabbit antibodies to the isolated 215,000-dalton and 140,000-dalton polymerase II subunits (P215 and P140, respectively). Similarly, we induced rabbit antibodies to wheat germ RNA polymerase II and to the 220,000-dalton subunit and 140,000-dalton subunit (P220 and P140, respectively). Anti-polymerase antibodies precipitated the homologous native enzyme and inhibited its activity in vitro, while several of the anti-subunit sera did neither. The anti-Drosophila P215 serum specifically labeled RNA polymerase II fixed in situ on polytene chromosomes. We reacted the antibodies with polymerase subunits separated by sodium dodecyl sulfate gel electrophoresis and electrophoretically transferred to nitrocellulose ("protein blotting"). Each antibody to whole polymerase reacted with multiple subunits, while the anti-subunit sera each reacted specifically with the subunit employed as immunogen. The anti-subunit sera also cross-reacted with the analogous subunit from several heterologous polymerases II (from yeast, wheat germ, Drosophila, and calf thymus), demonstrating shared subunit-specific determinants in polymerase II from widely divergent organisms. The anti-polymerase sera also showed cross-reactivity with subunits of heterologous enzymes, but only in one case did the cross-reactivity involve subunits other than the two largest ones. Specifically, the goat anti-Drosophila polymerase serum displayed easily detectable cross-reactivity with four low molecular weight subunits of calf thymus polymerase II, providing a unique demonstration of antigenic relatedness of small RNA polymerase II subunits from different higher eukaryotes.     

Affinity isolation of RNA polymerase II on amanitin-Sepharose

We report here the first case of an affinity isolation of eukaryotic RNA polymerase II. The procedure employs an affinity matrix composed of α-amanitin coupled to Sepharose 4B via a ten atom spacer. RNA polymerase II from either calf thymus or wheat germ binds to the amanitin-Sepharose, as indicated by subsequent elution with sodium dodecylsulfate-containing buffer and analysis by polyacrylamide gel electrophoresis. The specificity of binding is demonstrated by the fact that when the enzyme is preincubated with 1 μg/ml of free α-amanitin, subsequent binding to the amanitin-Sepharose is abolished. Elution methods that should permit the recovery of active enzyme from the column are discussed.