Add to ORKGWe have used a set of seven temperature-sensitive mutants in the DNA polymerase I gene of Saccharomyces cerevisiae to investigate the role of DNA polymerase I in various aspects of DNA synthesis in vivo. Previously, we showed that DNA polymerase I is required for mitotic DNA replication. Here we extend our studies to several stages of meiosis and repair of X-ray-induced damage. We find that sporulation is blocked in all of the DNA polymerase temperature-sensitive mutants and that premeiotic DNA replication does not occur. Commitment to meiotic recombination is only 2% of wild-type levels. Thus, DNA polymerase I is essential for these steps. However, repair of X-ray-induced single-strand breaks is not defective in the DNA polymerase temperat...
Y-family DNA polymerases mediate DNA damage tolerance via translesion synthesis (TLS). Because of th...
A yeast gene has been identified by screening for DNA replication mutants using a permeabilized cell...
A random population of temperature-sensitive mutants was screened by assaying for defects in DNA syn...
The ability of yeast DNA polymerase mutant strains to carry out repair synthesis after UV irradiatio...
Three DNA polymerases, alpha, delta, and epsilon are required for viability in Saccharomyces cerevis...
AbstractMitotic double-strand break (DSB)-induced gene conversion at MAT in Saccharomyces cerevisiae...
DNA polymerases influence genome stability through their involvement in DNA replication, response to...
Each cell division, the nuclear DNA must be replicated efficiently and with high accuracy to avoid m...
Using mitotic cultures synchronised by a feed-starve protocol or by elutriation, we have shown that ...
DNA repair is a crucial part of organismal survival. The repair process is carried out by DNA polyme...
AbstractMost types of DNA damage block the passage of the replication machinery. In order to bypass ...
AbstractThe Holliday junction recombination intermediate, an X-shaped DNA molecule (xDNA), was analy...
DNA damages hinder the advance of replication forks because of the inability of the replicative poly...
The authors would like to thank Mark Hochstrasser for the MHY500 strain and Yasushi Saeki for the pr...
The four-subunit DNA polymerase \uce\ub1-primase complex is unique in its ability to synthesize DNA ...
Y-family DNA polymerases mediate DNA damage tolerance via translesion synthesis (TLS). Because of th...
A yeast gene has been identified by screening for DNA replication mutants using a permeabilized cell...
A random population of temperature-sensitive mutants was screened by assaying for defects in DNA syn...
The ability of yeast DNA polymerase mutant strains to carry out repair synthesis after UV irradiatio...
Three DNA polymerases, alpha, delta, and epsilon are required for viability in Saccharomyces cerevis...
AbstractMitotic double-strand break (DSB)-induced gene conversion at MAT in Saccharomyces cerevisiae...
DNA polymerases influence genome stability through their involvement in DNA replication, response to...
Each cell division, the nuclear DNA must be replicated efficiently and with high accuracy to avoid m...
Using mitotic cultures synchronised by a feed-starve protocol or by elutriation, we have shown that ...
DNA repair is a crucial part of organismal survival. The repair process is carried out by DNA polyme...
AbstractMost types of DNA damage block the passage of the replication machinery. In order to bypass ...
AbstractThe Holliday junction recombination intermediate, an X-shaped DNA molecule (xDNA), was analy...
DNA damages hinder the advance of replication forks because of the inability of the replicative poly...
The authors would like to thank Mark Hochstrasser for the MHY500 strain and Yasushi Saeki for the pr...
The four-subunit DNA polymerase \uce\ub1-primase complex is unique in its ability to synthesize DNA ...
Y-family DNA polymerases mediate DNA damage tolerance via translesion synthesis (TLS). Because of th...
A yeast gene has been identified by screening for DNA replication mutants using a permeabilized cell...
A random population of temperature-sensitive mutants was screened by assaying for defects in DNA syn...