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Fig. 5. 5EE-lacZ is regulated by ey, eya and so. (A-J)
All panels show wing (A-F) or eye-antennal (G-J) discs from 5EE-lacZ
transgenic lines stained to reveal ß-galactosidase reporter activity. (A)
A wing imaginal disc from a 5EE-lacZ third instar larva shows weak
enhancer activity (present in multiple transgenic lines). (B,C) Wing imaginal
discs from 5EE-lacZ third instar larvae in which the expression of
UAS-ey alone (B) or a combination of UAS-dpp, UAS-eya and
UAS-so (C) is driven by 30A-Gal4. (B) ey alone, but
not (C) a combination of UAS-dpp, UAS-eya and UAS-so, is
capable of inducing 5EE-lacZ in the ring around the wing disc. (D-F)
Wing imaginal discs from 5EE-lacZ third instar larvae in which the
expression of UAS-ey is driven by dpp-Gal4 in wild-type (D),
so1 (E), eya2 (F) or mutant
backgrounds. Ectopic ey expression is able to induce
ß-galactosidase reporter expression via 5EE at the AP boundary
in all three cases. The activity is stronger in so1 mutant
wing discs than eya2 mutant wing discs. (G,H) Eye-antennal
imaginal discs from so1 (G) or eya2
(H) mutant 5EE-lacZ third instar larvae stained for
ß-galactosidase activity. No reporter activity is detected in these
mutant eye discs. (I,J) Eye-antennal imaginal discs from w;
so1; dpp-Gal4, 5EE-lacZ/UAS-ey and w;
eya2; dpp-Gal4, 5EE-lacZ/UAS-ey third instar
larvae. Strong induction of 5EE-lacZ is seen in the ventral antenna
in both so1 and eya2 mutants
(arrowheads in I and J, respectively). In addition, ß-galactosidase
activity is restored at the posterior margin of so1 mutant
eye discs (arrow in I).
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