Abstract
The T4 bacteriophage dda protein is a DNA-dependent ATPase and DNA helicase that is the product of an apparently nonessential T4 gene. We have examined its effects on in vitro DNA synthesis catalyzed by a purified, multienzyme T4 DNA replication system. When DNA synthesis is catalyzed by the T4 DNA polymerase on a single-stranded DNA template, the addition of the dda protein is without effect whether or not other replication proteins are present. In contrast, on a double-stranded DNA template, where a mixture of the DNA polymerase, its accessory proteins, and the gene 32 protein is required, the dda protein greatly stimulates DNA synthesis. The dda protein exerts this effect by speeding up the rate of replication fork movement; in this respect, it acts identically with the other DNA helicase in the T4 replication system, the T4 gene 41 protein. However, whereas a 41 protein molecule remains bound to the same replication fork for a prolonged period, the dda protein seems to be continually dissociating from the replication fork and rebinding to it as the fork moves. Some gene 32 protein is required to observe DNA synthesis on a double-stranded DNA template, even in the presence of the dda protein. However, there is a direct competition between this helix-destabilizing protein and the dda protein for binding to single-stranded DNA, causing the rate of replication fork movement to decrease at a high ratio of gene 32 protein to dda protein. As shown elsewhere, the dda protein becomes absolutely required for in vitro DNA synthesis when E. coli RNA polymerase molecules are bound to the DNA template, because these molecules otherwise stop fork movement (Bedinger, P., Hochstrasser, M., Jongeneel, C.V., and Alberts, B. M. (1983) Cell 34, 115-123).
Highlights
The T4 bacteriophage dda protein is a DNA-depend- protein factor for the replication of single-stranded DNA ent ATPase and DNA helicase that is theproduct of an phages (3)
We have examined have been reported to have slower than normal rates of its effects on in vitro DNA synthesis catalyzed by a replication fork movement (4)
The dda protein exerts this has been shown that antibodies against helicase I1 can inhibit the DNA synthesis that occurs in cells plasmolyzed on cellophane disks (7)
Summary
Enzymes-Bacteriophage fd gene 2 protein was the kind gift of G. Zinder (RockefellerUniversity); it had been purified from an E. coli strain carrying the pD2 plasmid, which overproduces this protein (21). The products of T4 genes 43,44/62,45,and 32 were purified in ourlaboratory according to published procedures (22,23). T4 DNA Helicase and DNA Replication pJMCllO plasmid contains 393 nucleotides from the phage M13 DNA replication origin inserted into pBR322 (24) and it was originally obtained from D. The plasmid DNA waspurified by standard procedures from the supernatant of a cell lysate from which protein and chromosomal DNA had been co-precipitated with detergent under alkaline conditions. The gene 2 protein was removed by phenol extraction and residual phenol was removed from the DNA with ether. The products of the reaction were analyzed by separating them by electrophoresis through a 0.5% agarose gel runin 30 mM NaOH, 1 mM Na3EDTA and subjecting the dried gel to autoradiography (these procedures are described in detail elsewhere (20))
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