In recent years, numerous studies using a wide variety of systems have
clearly established some of the fundamental components of eukaryotic
cell-division control. These include p34cdc2 protein kinases (hencefor
th referred to as p34) and closely related proteins (p33cdc2), and the
members of the cyclin gene family which, through interaction with the
p34 (and p33) kinases, regulate transitions from one stage of the cel
l cycle to the next. The function of these proteins in the cell cycle
has been conserved to the extent that p34 protein kinase and cyclin ge
nes are, in some cases, interchangeable between organisms. Despite the
tremendous insight that studies on p34 and the cyclins have provided,
many questions remain about the details of the molecular events which
allow these proteins to govern cell division. One question of particu
lar interest concerns the means by which p34 interaction with G1 phase
cyclins promotes G1 to S phase transition in the cell cycle. This is
of primary importance since entry into the cell cycle is regulated, fo
r most cells, by passage from G1 (or G0) into S phase. Recent findings
in the yeast Saccharomyces cerevisiae point to a potential link betwe
en the p34/G1 cyclin protein kinase complex and the regulation of DNA
replication genes during the cell cycle. This paper reviews studies de
aling with the transcriptional control of DNA replication genes in yea
st and also briefly discusses the potential role of G1 cyclins in this
process. A similar review of this subject has also been given by John
ston and Lowndes (1992).