Abstract
The Cdc7p protein kinase in the budding yeast Saccharomyces cerevisiae is thought to help trigger DNA replication by modifying one or more of the factors that assemble at replication origins (ARSs). To investigate events catalyzed by Cdc7p, we compared the structure of replication origins in cells containing conditional mutations in Cdc7p and Cdc8p, a thymidylate kinase that is required for DNA synthesis. High resolution genomic footprinting indicated that the presumptive lagging strand template in ARS1 became highly sensitive to KMnO(4) modification after the CDC7 execution point. These results suggested that Cdc7p triggers DNA unwinding. The transition from late G(1) phase to the CDC7 execution point and from the CDC7 to the CDC8 execution points was accompanied by small but ARS-dependent changes in DNA topology. These results suggested that DNA unwinding before the CDC8 execution point either is highly localized or that the torsional stress associated with initial DNA unwinding is minimized by compensatory protein-DNA structural changes. The ARS DNA structural attributes evident in cells blocked at the CDC8 execution point were also evident in alpha-factor-blocked, G(1) phase cells containing the CDC7 bypass mutant mcm5/cdc46-bob1. This result strongly suggests that the structural changes during the transition from the CDC7 to CDC8 execution points depend on the Cdc7p protein kinase and involve alteration of the minichromosome maintenance protein complex.
Highlights
Faithful transmission of genetic material from one cell generation to the requires that DNA be precisely duplicated each cell cycle
To ensure maximal viability of mutants used in this study and thereby avoid possible artifacts associated with cell death, cells were first blocked in G1 phase with ␣-factor and released to the restrictive temperature for just 1 h
The cleavage pattern in wild type cells arrested in ␣-factor was evident in cdc28 mutants blocked at START and in cdc7-1 and cdc8-1 mutants arrested in G1 phase with ␣-factor
Summary
Faithful transmission of genetic material from one cell generation to the requires that DNA be precisely duplicated each cell cycle. The ARS DNA structural attributes evident in cells blocked at the CDC8 execution point were evident in ␣-factor-blocked, G1 phase cells containing the CDC7 bypass mutant mcm5/cdc46-bob1.
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