Uncoupling of unwinding from DNA synthesis implies regulation of MCM helicase by Tof1/Mrc1/Csm3 checkpoint complex.

The replicative DNA helicases can unwind DNA in the absence of polymerase activity in vitro. In contrast, replicative unwinding is coupled with DNA synthesis in vivo. The temperature-sensitive yeast polymerase alpha/primase mutants cdc17-1, pri2-1 and pri1-m4, which fail to execute the early step of DNA replication, have been used to investigate the interaction between replicative unwinding and DNA synthesis in vivo.

Supercoiling unwinds two-micrometer plasmid yeast DNA at the origin of replication.

All studied origins of replication of DNA in Saccharomyces cerevisiae contain DNA unwinding elements. The introduction of unrestrained negative supercoiling leads to melting of the two DNA strands in DNA unwinding elements. To understand the mechanism of DNA replication it is important to know whether the most unstable region of DNA coincides with the origin of replication.

Emergence of the active site of spleen exonuclease upon association of the two basic monomers of the tetrameric enzyme.

The 5'-->3' exonuclease from beef spleen is a 160-kDa tetramer consisting of four subunits of two types. Partial reduction of the tetramer led to one stable intermediate state of the enzyme with Mr = 80 kDa. The aim of this paper was to attribute the exonucleolytic activity to one of the two monomers, to the dimer or to the tetramer.

Oligomeric protein structure of beef spleen exonuclease.

A one-step purification of beef spleen exonuclease in the form of a DNA-enzyme complex is described. The purity of the exonuclease was verified by two-dimensional gel electrophoresis. It possesses molecular mass 160 kDa and pI 6.