Discriminatory function of ribonuclease H in the selective initiation of plasmid DNA replication.

The initiation stage of ColE1-type plasmid replication was reconstituted with purified protein fractions from Escherichia coli. The reconstituted system included DNA polymerase I, DNA ligase, RNA polymerase, DNA gyrase, and a discriminating activity copurifying with RNAase H (but free of RNAase III). Initiation of DNA synthesis in the absence of RNAase H did not occur at the normal replication origin and was non-selective with respect to the plasmid template. In the presence of RNAase H the system was selective for ColE1-type plasmids and could not accept the DNA of non-amplifiable plasmids. Electron microscopic analysis of the reaction product formed under discriminatory conditions indicated that origin usage and directionally of ColE1, RSF1030, and CloDF13 replication were consistent with the normal replication pattern of these plasmids. It is proposed that the initiation of ColE1-type replication depends on the formation of an extensive secondary structure in the origin primer RNA that prevents its degradation by RNAase H

DNA gyrase: affinity chromatography on novobiocin-Sepharose and catalytic properties.

Novobiocin-Sepharose was prepared by coupling of novobiocin to Epoxy-activated Sepharose 6B and used as an affinity adsorbent. Four novobiocin-binding proteins were isolated from crude extracts of Escherichia coli with molecular weights of 105, 92, 85 and 40 kdal. The two larger proteins were identified as the A subunit (gyrA protein) and the B subunit (gyrB protein) of DNA gyrase topoisomerase II). By this method the two gyrase components can be easily separated and purified in high yield. Although both proteins are involved in the ATP-dependent supercoiling of relaxed plasmid DNA, only the gyrB protein is required for catalyzing the cleavage of ATP. The gyrB protein ATPase activity is competitively inhibited by novobiocin and related coumarin antibiotics. ATP hydrolysis is unaffected by the addition of either gyrA protein or DNA but stimulated in the presence of both

Escherichia coli DNA synthesis in vitro: insensitivity of ATP-dependent DNA repair to inhibition by novobiocin.

Novobiocin, an effective inhibitor of DNA replicaion in Escherichia coli, is shown to have no effect on the ATP-dependent DNA repair carried out by toluenized cells after ultraviolet irradiation. Therefore novobiocin can be considered a selective inhibitor of replicative DNA synthesis in vitro