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J. Biol. Chem., Vol. 265, Issue 25, 15124-15133, 09, 1990

Roles of phi X174 type primosome- and G4 type primase-dependent primings in initiation of lagging and leading strand syntheses of DNA replication

H Masai, N Nomura, Y Kubota and K Arai
Department of Molecular Biology, DNAX Research Institute of Molecular, and Cellular Biology, Palo Alto, California 94304.

Eleven single strand initiation sequences (ssi) were isolated from various plasmid genomes using a plaque-morphology assay. Out of seven ssi that require dnaB and dnaC functions for replication in a crude in vitro system, six use a phi X174 type priming mechanism, and a phi X174 type primosome is assembled at these sequences from the purified proteins, n'(priA), n(priB), n"(priC), dnaT, dnaB, dnaC, and primase. The same ssi potentiate dATPase activity of n' protein, and thus represent new n' protein recognition sequences (n'-pas). Based on sequence homology, two structural groups are evident. Two sequences show a strong homology with the phi X174 site, whereas three share extensive homology with the previously characterized n'-pas of ColE1, ssiA(ColE1). All the n'-pas have a potential to form stem and loop structures, although sequence homology between the two classes is absent. In addition to the phi X174 type priming, three ssi do not require either dnaB or dnaC function for replication, and use a G4 type priming, requiring only SSB and primase. The 5' ends of primer RNA synthesized by primase are localized within the vicinity of one of the three blocks of highly conserved nucleotide sequences. Deletions of parts of these conserved sequences result in loss of priming activity, suggesting that they are important for priming on the G4 type ssi, which are termed G site. The general significance of these two types of priming in initiation of lagging or leading strand synthesis as well as various modes of initiation at origins of replication are proposed.
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