Fig. 7. The consequences of ectopic expression of dve. (A-D,F,G) Wing imaginal discs bearing clones of UAS-dve expressing cells in the wing area. The Dve-expressing clones were induced with help of the Flip-out method, using hsFlp and the AyGal4-UAS-GFP constructs, during the second larval instar stage and labelled by the green fluorescence of the GFP. Expression of all genes is detected by antibody staining. (A-C) Expression of dve^P1738-lacZ and Nub in a wing imaginal disc bearing Dve-expressing clones. (A) Expression of dve^P1738-lacZ. (B) Expression of Nub. (C) The same wing imaginal disc as shown in A and B, showing the Dve-expressing clones in green, expression of Nub in blue and expression of dve^P1738-lacZ in red. Several effects are observed. First, clones in the dve expression domain but outside the wing blade cause the formation of folds around the clone (arrowheads in A-C). This suggests that elevation of Dve expression in the PW can locally enhance the proliferation in the surrounding cells. Secondly, with a low frequency, we find that expression of Dve can non-autonomously induce ectopic expression of dve^P1738-lacZ and nub (see arrow in A-C). The ectopic Dve-expressing clone (above the arrow in C) is located at the hinge/notum boundary and expression of both genes is extended towards the clone. The pseudo-colour image shown in C reveals that the ectopic expression of Nub occurs in a larger domain than that of Dve, as is the case during normal development. (D) In a similar manner, we find that the expression of the inner ring-like domain of wg is correspondingly expanded. Expression of Wg is shown in red, the clones of Dve expressing cells are shown in green. The arrow indicates a clone near the inner ring-like expression domain of Wg. The clone induces an expansion of the inner ring-like expression domain of Wg in a similar manner to that shown for Nub and dve^P1738-lacZ (see A-C). The third effect caused by the Dve-expressing clones is highlighted by the asterisks in A and C. Elevation of Dve expression suppresses the expression of ß-Gal, suggesting the existence of a negative feedback of Dve on its promoter. This negative influence of Dve on the activity of its promotor can also be observed when Dve is expressed with dpp-Gal, as shown in E. (E) Expression of UAS-dve with dpp-Gal4. Ectopic expression of dve^P1738-lacZ and of Wg is shown in green and red, respectively. Expression of Dve suppresses the expression of dve^P1738-lacZ (arrow). In addition expression of wg in the PW is interrupted in the domain of dpp-GAL4. (F,G) Forced expression of Dve at the DV boundary abolishes the expression of wg. (F) Expression of Wg. (G) Expression of Wg (blue) and dve^P1738-lacZ (red) in a disc bearing Dve-expressing clones (green). A comparison of F with G reveals that wg expression is interrupted (arrows in F) in the Dve-expressing clones. (H) Expression of UAS-dve with sd-Gal4 abolishes expression of Wg in the wing. Arrow indicates the wing area, which is poorly developed and does not exhibit any expression of Wg.

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