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Fig. 3. Posterior Dally levels influence Dpp signaling and compartment size.
(A,A') An en-Gal4; UAS-GFP haltere disc
stained for P-Mad. The AP boundary is traced in yellow. Little P-Mad staining
is found in the P compartment of the haltere. (B,B') An
en-Gal4; UAS-lacZ, UAS-dallyweak haltere disc
stained for P-Mad. Boosting dally levels in the P compartment of the
haltere increases the intensity and extent of posterior P-Mad staining. This
genotype also causes a reduction in P-Mad staining in the A cells abutting the
AP compartment boundary (arrow). (C,C') Driving a stronger
version of UAS-dally (UAS-dallystrong) ith
en-Gal4 causes most of the P-Mad signal to shift into the P
compartment, non-autonomously reducing P-Mad levels in adjacent A-compartment
cells to near basal levels (arrow). (D) en-Gal4;
UAS-dallyweak haltere discs have a larger P:A ratio (in
the Nubbin-marked, appendage-forming domain) than control (en-Gal4;
UAS-lacZ) haltere discs. (E) Expressing
UAS-dallyweak in the haltere P compartment increases
overall adult haltere size by 
5% as compared with control
(en-Gal4; UAS-lacZ) halteres. A, anterior compartment; P,
posterior compartment.
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