K. Hosaka et al., CLONING AND CHARACTERIZATION OF THE SCS1 GENE REQUIRED FOR THE EXPRESSION OF GENES IN YEAST PHOSPHOLIPID-SYNTHESIS, Journal of Biochemistry, 115(1), 1994, pp. 131-136
A dominant mutation of Saccharomyces cerevisiae, CSE1, caused a decrea
se in the expression of the INO1 gene product, inositol-1-phosphate sy
nthase. The residual activity was completely repressed by the addition
of choline to the medium. A mutant carrying this mutation could not g
row in the presence of choline unless inositol was added to the medium
. Here we report a suppressor gene of the CSE1 mutation, SCS1 (suppres
sor of CSE1), which was cloned by complementation of CSE1 with a wild-
type multicopy yeast genomic library. The cloned SCS1 gene contained a
n open reading frame which encoded 304 amino acid residues with a calc
ulated molecular mass of 34,234 Da, and the sequence coincided with th
at of the INO2 gene. An scs1/ino2 null mutant constructed by gene repl
acement was viable, but auxotrophic for inositol and choline, and used
for determination of the mRNA levels of various phospholipid-synthesi
zing enzymes. In agreement with the reported data for ino2 mutants the
disruptant showed decreased expression of the INO1 and PSS genes, whi
ch are known to be regulated by inositol and choline. In addition, we
newly found that the disruption of SCS1/INO2 also caused a decrease in
the expression of the CKI, PEM1, and PEM2 genes, which we previously
showed to belong to the inositol-choline-regulated gene family. These
results confirm and strengthen the conclusion that the SCS1/INO2 gene
is required for expression of inositol-choline-regulated genes in phos
pholipid synthesis.