Wj. Dixon et al., CUP2 BINDS IN A BIPARTITE MANNER TO UPSTREAM ACTIVATION SEQUENCE-C INTHE PROMOTER OF THE YEAST COPPER-METALLOTHIONEIN GENE, JBIC. Journal of biological inorganic chemistry, 1(5), 1996, pp. 451-459
Induction of the copper metallothionein (CUP1) gene of the yeast Sacch
aromyces cerevisiae is achieved by CUP2, a transcriptional activator p
rotein which has a metal-dependent DNA-binding activity. It is thought
that metal binding to CUP2 results in the formation of several looped
regions of the protein which then are capable of binding to DNA. CUP2
binds to a site near the CUP1 gene called upstream activation sequenc
e c (UASc), an imperfect inverted repeat. While CUP2 binds to both hal
f-sites of UASc, the upstream half-site appears to be more important f
or transcriptional activity. A variant of CUP2 called ace1, in which c
ysteine-11 is replaced by tyrosine, binds to DNA but is incapable of a
ctivating transcription. We have used hydroxyl radical footprinting an
d missing nucleoside analysis to examine the complexes of wild-type CU
P2 and the ace1 mutant protein with UASc. Our results indicate that ac
e1 interacts with a smaller portion of UASc than does CUP2, providing
further evidence that the DNA-binding domain of CUP2 is complex, compo
sed of two or more elements that recognize distinct features of UASc.
We also show that CUP2 itself binds slightly differently to the two ha
lf-sites of UASc. While CUP2 and ace1 bind in a rather similar manner
to the downstream half-site, in the upstream half-site CUP2 makes more
extensive interactions. Our results suggest that the more crucial rol
e that the upstream half-site plays in transcriptional activation may
be due to differences in how CUP2 binds to each of the half-sites of U
ASc.