Eukaryotic DNA replication

One of the fundamental characteristics of life is the ability of an entity to reproduce itself, which stems from the ability of the DNA molecule to replicate itself. The initiation step of DNA replication, where control over the timing and frequency of replication is exerted, is poorly understood in

Our understanding of the process by which eukaryotes regulate initiation of DNA replication has made remarkable advances in the past few years, thanks in large part to the explosion of genetic and biochemical information on the budding yeast, Saccharomyces cerevisiae. At least three major concepts h

The glp-I locus and cellular interactions in early Caenorhabditis elegans embryos. Cell 51, 601-61 1. ## 9 STROME, S. (1986). Asymmetric movements of cyto- plasmic components in Caenorhabdiris eregans zygotes.

Recent advances in our understanding of the mechanism and regulation of eukaryotic DNA replication have been expedited by the use of cell-free systems capable of initiation of DNA replication. The system capable of replicating plasmid DNAs containing the SV40 origin of DNA replication in vitro is a

absolutely unfailing way. This problem is largely ignored in traditional studies on eukaryotic DNA replication. ## Summary A hypothesis for the control of eukaryotic DNA replication at the chromosomal level is proposed. The specific regulatory problem arises from the subdivision of the genome int