M. Piotrowska et al., sconC, a gene involved in the regulation of sulphur metabolism in Aspergillus nidulans, belongs to the SKP1 gene family, MOL G GENET, 264(3), 2000, pp. 276-282
sconC, which encodes a negative regulator of sulphur metabolism in Aspergil
lus nidulans was cloned, sequenced, and found to belong to the highly conse
rved family of SKP1 genes essential for many cell functions, including cell
cycle regulation. The ORF of 722 bp, encoding a protein of 161 amino acids
, is interrupted by four introns. There is a fifth intron (135 bp long) in
the upstream untranslated sequence. Two point mutations in conserved region
s were identified in the mutant alleles sconC3 and sconC1, which result in
relief of sulphur metabolite repression. The SCONC protein contains the PES
T sequence common for proteins that are subject to rapid turnover. Transfor
mation of the sconC3 mutant with sconB(+) restores the wild-type phenotype.
The sconB gene encodes a protein containing the F-box, a domain known to i
nteract with Skp1 proteins. By analogy with other systems, it seems likely
that the SCONC protein interacts with SCONB. sconC mRNA is present in the s
conC3 and sconB2 mutants and the level of the sconC transcript seems not to
be significantly regulated by supplementation of the medium with sulphur.