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Bachmann, A. and Knust, E (1998). Positive and negative control of Serrate expression during early development of the Drosophila wing. Mech. Dev 76, 67-78.[Medline]

Basler, K. and Struhl, G (1994). Compartment boundaries and the control of Drosophila limb pattern by Hedgehog protein. Nature 368, 208-214.[Medline]

Blair, S. S., Brower, D. L., Thomas, J. B. and Zavortink, M (1994). The role of apterous in the control of dorsoventral compartmentalization and PSintegrin gene expression in the developing wing of Drosophila. Development 120, 1805-1815.[Abstract]

Blair, S. S. and Ralston, A (1997). Smoothened-mediated Hedgehog signalling is required for the maintenance of the anterior-posterior lineage restriction in the developing wing of Drosophila. Development 124, 4053-4063.[Abstract]

Brabant, M. C., Fristrom, D., Bunch, T. A. and Brower, D. L (1996). Distinct spatial and temporal functions for PS integrins during Drosophila wing morphogenesis. Development 122, 3307-3317.[Abstract]

Brand, A. H. and Perrimon, N (1993). Targeted gene expression as a means of altering cell fates and generating dominant phenotypes. Development 118, 401-415.[Abstract]

Brower, D. L., Bunch, T. A., Mukai, L., Adamson, T. E., Wehrli, M., Lam, S., Friedlander, E., Roote, C. E. and Zusman, S (1995). Nonequivalent requirements for PS1 and PS2 integrin at cell attachments in Drosophila : genetic analysis of the alpha PS1 integrin subunit. Development 121, 1311-1320.[Abstract]

Brower, D. L. and Jaffe, S. M (1989). Requirement for integrins during Drosophila wing development. Nature 342, 285-287.[Medline]

Brower, D. L., Wilcox, M., Piovant, M., Smith, R. J. and Reger, L. A (1984). Related cell-surface antigens expressed with positional specificity in Drosophila imaginal discs. Proc. Natl. Acad. Sci. USA 81, 7485-7489.[Abstract/Free Full Text]

Bruckner, K., Perez, L., Clausen, H. and Cohen, S (2000). Glycosyltransferase activity of Fringe modulates Notch-Delta interactions. Nature 406, 411-415.[Medline]

Callahan, C. A. and Thomas, J. B (1994). Tau-\321galactosidase, an axon-targeted fusion protein. Proc. Natl. Acad. Sci. USA 91, 5972-5976.[Abstract/Free Full Text]

Calleja, M., Moreno, E., Pelaz, S. and Morata, G (1996). Visualization of gene expression in living adult Drosophila. Science 274, 252-255.[Abstract/Free Full Text]

Cohen, B., McGuffin, M. E., Pfeifle, C., Segal, D. and Cohen, S. M (1992). apterous , a gene required for imaginal disc development in Drosophila encodes a member of the LIM family of developmental regulatory proteins. Genes Dev 6, 715-729.[Abstract/Free Full Text]

Couso, J. P., Knust, E. and Martinez Arias, A (1995). Serrate and wingless cooperate to induce vestigial gene expression and wing formation in Drosophila. Curr. Biol 5, 1437-1448.[Medline]

Dahmann, C. and Basler, K (2000). Opposing transcriptional outputs of Hedgehog signaling and Engrailed control compartmental cell sorting at the Drosophila A/P boundary. Cell 100, 411-422.[Medline]

de Celis, J. F. and Bray, S (1997). Feed-back mechanisms affecting Notch activation at the dorsoventral boundary in the Drosophila wing. Development 124, 3241-3251.[Abstract]

de Celis, J. F., Bray, S. and Garcia-Bellido, A (1997). Notch signalling regulates veinlet expression and establishes boundaries between veins and interveins in the Drosophila wing. Development 124, 1919-1928.[Abstract]

de Celis, J. F. and Bray, S. J (2000). The Abruptex domain of Notch regulates negative interactions between Notch, its ligands and Fringe. Development 127, 1291-1302.[Abstract]

Diaz-Benjumea, F. J. and Cohen, S. M (1993). Interaction between dorsal and ventral cells in the imaginal disc directs wing development in Drosophila. Cell 75, 741-752.[Medline]

Diaz-Benjumea, F. J. and Cohen, S. M (1995). Serrate signals through Notch to establish a Wingless-dependent organizer at the dorsal/ventral compartment boundary of the Drosophila wing. Development 121, 4215-4225.[Abstract]

Doherty, D., Feger, G., Younger-Shepherd, S., Jan, L. Y. and Jan, Y. N (1996). Delta is a ventral to dorsal signal complementary to Serrate, another Notch ligand, in Drosophila wing formation. Genes Dev 10, 421-434.[Abstract/Free Full Text]

Fausto-Sterling, A. and Hsieh, L (1987). In vitro culture of Drosophila imaginal disc cells: aggregation, sorting out, and differentiative abilities. Dev. Biol 120, 284-293.[Medline]

Fleming, R. J., Gu, Y. and Hukriede, N. A (1997). Serrate-mediated activation of Notch is specifically blocked by the product of the gene fringe in the dorsal compartment of the Drosophila wing imaginal disc. Development 124, 2973-2981.[Abstract]

Garcia-Bellido, A (1966). Pattern reconstruction by dissociated imaginal disk cells of Drosophila melanogaster. Dev. Biol 14, 278-306.[Medline]

Garcia-Bellido, A (1968). Cell affinities in antennal homoeotic mutants of Drosophila melanogaster. Genetics 59, 487-499.[Free Full Text]

Garcia-Bellido, A (1975). Genetic control of wing disc development in Drosophila. Ciba Found. Symp 29, 161-182.

Garcia-Bellido, A. and Santamaria, P (1972). Developmental analysis of thewing disc in the mutant engrailed of Drosophila melanogaster. Genetics 72, 87-104.[Abstract/Free Full Text]

Garcia-Bellido, A. and de Celis, J. F (1992). Developmental genetics of the venation pattern of Drosophila. Annu. Rev. Genet 26, 277-304.[Medline]

Huppert, S. S., Jacobsen, T. L. and Muskavitch, M. A (1997). Feedback regulation is central to Delta-Notch signalling required for Drosophila wing vein morphogenesis. Development 124, 3283-3291.[Abstract]

Irvine, K. D. and Wieschaus, E (1994). fringe , a boundary-specific signaling molecule, mediates interactions between dorsal and ventral cells during Drosophila wing development. Cell 79, 595-606.[Medline]

Ju, B.-G., Jeong, S., Bae, E., Hyun, S., Carroll, S. B., Yim, J. and Kim, J (2000). Fringe forms a complex with Notch. Nature 405, 191-195.[Medline]

Kim, J., Irvine, K. D. and Carroll, S. B (1995). Cell recognition, signal induction, and symmetrical gene activation at the dorsal-ventral boundary of the developing Drosophila wing. Cell 82, 795-802.[Medline]

Kim, J., Sebring, A., Esch, J. J., Kraus, M. E., Vorwerk, K., Magee, J. and Carroll, S. B (1996). Integration of positional signals and regulation of wing formation and identity by Drosophila vestigial gene. Nature 382, 133-138.[Medline]

Klambt, C., Jacobs, J. R. and Goodman, C. S (1991). The midline of the Drosophila central nervous system: a model for the genetic analysis of cell fate, cell migration, and growth cone guidance. Cell 64, 801-815.[Medline]

Klein, T. and Arias, A. M (1998). Interactions among Delta, Serrate and Fringe modulate Notch activity during Drosophila wing development. Development 125, 2951-2962.[Abstract]

Kornberg, T., Siden, I., O'Farrell, P. and Simon, M (1985). The engrailed locus of Drosophila : in situ localization of transcripts reveals compartment-specific expression. Cell 40, 45-53.[Medline]

Lawrence, P. A. and Morata, G (1976). Compartments in the wing of Drosophila : a study of the engrailed gene. Dev. Biol 50, 321-337.[Medline]

Leptin, M., Aebersold, R. and Wilcox, M (1987). Drosophila position-specific antigens resemble the vertebrate fibronectin-receptor family. EMBO J 6, 1037-1043.[Medline]

Liang, Z. and Biggin, M. D (1998). Eve and ftz regulate a wide array of genes in blastoderm embryos: the selector homeoproteins directly or indirectly regulate most genes in Drosophila. Development 125, 4471-4482.[Abstract]

Micchelli, C. A. and Blair, S. S (1999). Dorsoventral lineage restriction in wing imaginal discs requires Notch. Nature 401, 473-476.[Medline]

Milan, M., Baonza, A. and Garcia-Bellido, A (1997). Wing surface interactions in venation patterning in Drosophila. Mech. Dev 67, 203-213.[Medline]

Milan, M. and Cohen, S. M (1999). Notch signaling is not sufficient to define the affinity boundary between dorsal and ventral compartments. Mol. Cell 4, 1073-1078.

Morata, G. and Lawrence, P. A (1975). Control of compartment development by the engrailed gene in Drosophila. Nature 255, 614-617.[Medline]

Nasiadka, A., Grill, A. and Krause, H. M (2000). Mechanisms regulatingtarget gene selection by the homeodomain-containing protein Fushi tarazu. Development 127, 2965-2976.[Abstract]

Nellen, D., Burke, R., Struhl, G. and Basler, K (1996). Direct and long-range action of a DPP morphogen gradient. Cell 85, 357-368.[Medline]

Neumann, C. J. and Cohen, S. M (1997). Long-range action of Wingless organizes the dorsal-ventral axis of the Drosophila wing. Development 124, 871-880.[Abstract]

O'Keefe, D. D., Thor, S. and Thomas, J. B (1998). Function and specificity of LIM domains in Drosophila nervous system and wing development. Development 125, 3915-3923.[Abstract]

Panin, V. M., Papayannopoulos, V., Wilson, R. and Irvine, K. D (1997). Fringe modulates Notch-ligand interactions. Nature 387, 908-912.[Medline]

Rauskolb, C., Correia, T. and Irvine, K. D (1999). Fringe-dependent separation of dorsal and ventral cells in the Drosophila wing. Nature 401, 476-480.[Medline]

Rodriguez, I. and Basler, K (1997). Control of compartmental affinity boundaries by hedgehog. Nature 389, 614-618.[Medline]

Sturtevant, M. A., Roark, M. and Bier, E (1993). The Drosophilarhomboid gene mediates the localized formation of wing veins and interacts genetically with components of the EGF-R signaling pathway. Genes Dev 7, 961-973.[Abstract/Free Full Text]

Tabata, T., Eaton, S. and Kornberg, T. B (1992). The Drosophilahedgehog gene is expressed specifically in posterior compartment cells and is a target of engrailed regulation. Genes Dev 6, 2635-2645.[Abstract/Free Full Text]

Thomas, U., Speicher, S. A. and Knust, E (1991). The Drosophila gene Serrate encodes an EGF-like transmembrane protein with a complex expression pattern in embryos and wing discs. Development 111, 749-761.[Abstract]

Tiong, S. Y., Nash, D. and Bender, W (1995). Dorsal wing , a locus that affects dorsoventral wing patterning in Drosophila. Development 121, 1649-1656.[Abstract]

Weatherbee, S. D., Halder, G., Kim, J., Hudson, A. and Carroll, S (1998). Ultrabithorax regulates genes at several levels of the wing-patterning hierarchy to shape the development of the Drosophila haltere. Genes Dev 12, 1474-1482.[Abstract/Free Full Text]

Williams, J. A., Paddock, S. W. and Carroll, S. B (1993). Pattern formation in a secondary field: a hierarchy of regulatory genes subdivides the developing Drosophila wing disc into discrete subregions. Development 117, 571-584.[Abstract]

Wilson, T. G (1981). Expression of phenotypes in a temperature-sensitive allele of the apterous mutation in Drosophila melanogaster. Dev. Biol 85, 425-433.[Medline]

Yuan, Y. P., Schultz, J., Mlodzik, M. and Bork, P (1997). Secreted fringe-like signaling molecules may be glycosyltransferases. Cell 88, 9-11.[Medline]

Zecca, M., Basler, K. and Struhl, G (1995). Sequential organizing activities of engrailed, hedgehog and decapentaplegic in the Drosophila wing. Development 121, 2265-2278.[Abstract]

Zecca, M., Basler, K. and Struhl, G (1996). Direct and long-range action of a Wingless morphogen gradient. Cell 87, 833-844.[Medline]
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