Regulation of the spalt/spalt-related gene complex and its function during sensory organ development in the Drosophila thorax

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Bier, E., Vaessin, H., Younger-Shepherd, S., Jan, L. Y. and Jan, Y. N (1992). deadpan , an essential pan-neural gene in Drosophila , encodes a helix-loop-helix protein similar to the hairy gene product. Genes Dev 6, 2137-2151.[Abstract/Free Full Text]

Blair, S. S (1995). Compartments and appendage development in Drosophila. BioEssays 4, 299-309.

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]

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]

Campuzano, S. and Modolell, J (1992). Patterning of the Drosophila nervous system-the achaete - scute gene complex. Trends Genet 8, 202-208.[Medline]

Cubadda, Y., Heitzler, P., Ray, R., Bourouis, M., Ramain, P., Gelbart, W., Simpson, P. and Haenlin, M (1997). u-shaped encodes a zinc finger protein that regulates the proneural genes achaete and scute during the formation of bristles in Drosophila. Genes Dev 11, 3083-3095.[Abstract/Free Full Text]

de Celis, J. F., Barrio, R. and Kafatos, F. C (1996). A gene complex acting downstream of Decapentapleic in Drosophila wing morphogenesis. Nature 381, 421-424.[Medline]

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

Dominguez, M., Brunner, M., Hafen, E. and Basler, K (1996). Sending and receiving the Hedgehog signal: control by the Drosophila Gli protein Cubitus interruptus. Science 272, 1621-1625.[Abstract]

Dominguez, M. and Campuzano, S (1993). asense , a member of the Drosophilaachaete-scute complex, is a proneural and cell differentiation gene. EMBO J 12, 2049-2060.[Medline]

Frei, E., Schuh, R., Baungartner, S., Burri, M., Noll, M., Jurgens, G., Seifert, E., Nauber, U. and J\212ckle, H (1988). Molecular characterisation of spalt , a homeotic gene required for head and tail development in the Drosophila embryo. EMBO J 7, 197-204.[Medline]

Garrell, J. and Modolell, J (1990). The Drosophila extramacrochaetae locus, an antagonist of proneural genes that, like these genes, encodes a helix-loop-helix protein. Cell 6, 39-48.

Ghysen, A. and O'Kane, C (1989). Neural enhancer-like elements as specific cell markers in Drosophila. Development 105, 35-53.[Abstract]

Gomez-Skarmeta, J. L., D\222ez del Corral, R., de la Calle, E., Ferres-Marco, D. and Modolell, J (1996). araucan and caupolican , two members of the novel Iroquois complex, encode homeoproteins that control proneural and vein-forming genes. Cell 85, 95-105.[Medline]

Gomez-Skarmeta, J. L. and Modolell, J (1996). araucan and caupolican provide a link between compartment subdivisions and patterning of sensory organs and veins in the Drosophila wing. Genes Dev 10, 2935-2945.[Abstract/Free Full Text]

Gomez-Skarmeta, J. L., Rodriguez, I., Martinez, C., Culi, J., Ferres-Marco, D., Beamonte, D. and Modolell, J (1995). Cis -regulation of achaete and scute : shared enhancer-like elements drive their coexpression in proneural clusters of the imaginal discs. Genes Dev 9, 1869-1882.[Abstract/Free Full Text]

Gomez-Skarmeta, J. L., D\222ez del Corral, R., de la Calle, E., Ferres-Marco, D. and Modolell, J (1996). araucan and caupolican , two members of the novel Iroquois complex, encode homeoproteins that control proneural and vein forming genes. Cell 85, 95-105.

Guillen, I., Mullor, J. L., Capdevila, J., S\207nchez-Herrero, E., Morata, G. and Guerrero, I (1995). The function of engrailed and the specification of Drosophila wing pattern. Development 121, 3447-3456.[Abstract]

Haenlin, M. Cubadda, Y., Blondeau, F., Heitzler, P., Lutz, Y., Simpson, P. and Ramain, P (1997). Transcriptional activity of Pannier is regulated negatively by heterodimerization of the GATA DNA-binding domain with a cofactor encoded by the u-shaped gene of Drosophila. Genes Dev 11, 3096-3108.[Abstract/Free Full Text]

Klein, T., Couso, J. P. and Martinez-Arias, A (1998). Wing development and specification of dor sal cell fates in the absence of apterous in Drosophila. Curr. Biol 8, 417-420.[Medline]

K\232ster, R., Stick, R., Loosli, F. and Wittbrodt, J (1997). Medaka spalt acts as a target gene of hedgehog signalling. Development 124, 3147-3156.[Abstract]

Kuhnlein, R. P., Bronner, G., Taubert, H. and Schuh, R (1997). Regulation of Drosophilaspalt gene expression. Mech. Dev 66, 107-118.[Medline]

Kuhnlein, R. P., Frommer, G., Friedrich, M., Gonzalez-Gait\207n, M., Wever, A., Wagner-Bernholz, J. F., Gehring, W. J., J\212ckle, H. and Schuh, R (1994). spalt encodes an evolutionarily conserved zinc finger protein of novel structure which provides homeotic gene function in the head and tail region of the Drosophila embryo. EMBO J 13, 168-179.[Medline]

Lecuit, T., Brook, W., Ng, J., Calleja, M., Sun, H. and Cohen, S (1996). Two distinct mechanisms for long range patterning by Decapentaplegic in the Drosophila wing. Nature 381, 387-393.[Medline]

Li, W., Ohlmeyer, J., Lane, M. and Kalderon, D (1995). Function of protein kinase A in hedgehog signal transduction and Drosophila imaginal disc development. Cell 80, 553-562.[Medline]

Modolell, J. and Campuzano, S (1998). The achaete-scute complex as an integrating device. Int. J. Dev. Biol 42, 275-282.[Medline]

Mullor, J. L., Calleja, M., Capdevila, J. and Guerrero, I (1997). Hedgehog activity, independent of Decapentaplegic, participates in wing disc patterning. Development 124, 1227-1237.[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]

Pan, D. and Rubin, G.M (1995). Protein kinase A and hedgehog act antagonistically in regulating decapentaplegic transcription in Drosophila imaginal discs. Cell 80, 543-552.[Medline]

Phillips, R. G. and Whittle, J. R. S (1993). wingless expression mediates determination of peripheral nervous system elements in late stages of Drosophila wing disc development. Development 118, 427-438.[Abstract]

Rubin, G. M. and Spradling, A. C (1982). Genetic transformation of Drosophila with transposable element vectors. Science 218, 348-353.[Abstract/Free Full Text]

Ruiz i Altaba, A (1997). Catching a Gli-mpse of Hedgehog. Cell 90, 193-196.[Medline]

Ruiz-Gomez, M. and Modolell, J (1987). Deletion analysis of the achaete-scute locus of Drosophilamelanogaster. Genes Dev 1, 1238-1246.[Abstract/Free Full Text]

Staehling-Hampton, K. and Hoffmann, F. M (1994). Ectopic decapentaplegic in the Drosophila midgut alters the expression of five homeotic genes, dpp , and wingless , causing specific morphological defects. Dev. Biol 164, 502-512.[Medline]

Stern, C (1954). Two or three bristles. Am. Scientist 42, 213-247.

Wharton, K. A. Jr., and Crews, S. T (1993). CNS midline enhancers of the Drosophila slit and Toll genes. Mech. Dev 40, 141-54.[Medline]

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Articles by de Celis, J. F.

Articles by Kafatos, F. C.

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				J. de Navascues and J. Modolell tailup, a LIM-HD gene, and Iro-C cooperate in Drosophila dorsal mesothorax specification Development, May 1, 2007; 134(9): 1779 - 1788. [Abstract] [Full Text] [PDF]

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				R. Barrio and J. F. de Celis Regulation of spalt expression in the Drosophila wing blade in response to the Decapentaplegic signaling pathway PNAS, April 20, 2004; 101(16): 6021 - 6026. [Abstract] [Full Text] [PDF]

				S. T. Harbison, A. H. Yamamoto, J. J. Fanara, K. K. Norga, and T. F. C. Mackay Quantitative Trait Loci Affecting Starvation Resistance in Drosophila melanogaster Genetics, April 1, 2004; 166(4): 1807 - 1823. [Abstract] [Full Text] [PDF]

				P. D. S. Dong, S. V. Todi, D. F. Eberl, and G. Boekhoff-Falk Drosophila spalt/spalt-related mutants exhibit Townes-Brocks' syndrome phenotypes PNAS, September 2, 2003; 100(18): 10293 - 10298. [Abstract] [Full Text] [PDF]

				R. Cantera, K. Luer, T. E. Rusten, R. Barrio, F. C. Kafatos, and G. M. Technau Mutations in spalt cause a severe but reversible neurodegenerative phenotype in the embryonic central nervous system of Drosophila melanogaster Development, March 14, 2003; 129(24): 5577 - 5586. [Abstract] [Full Text] [PDF]

				D. Sweetman, T. Smith, E. R. Farrell, A. Chantry, and A. Munsterberg The Conserved Glutamine-rich Region of Chick Csal1 and Csal3 Mediates Protein Interactions with Other Spalt Family Members. IMPLICATIONS FOR TOWNES-BROCKS SYNDROME J. Biol. Chem., February 14, 2003; 278(8): 6560 - 6566. [Abstract] [Full Text] [PDF]

				T. Rusten, R Cantera, J Urban, G Technau, F. Kafatos, and R Barrio Spalt modifies EGFR-mediated induction of chordotonal precursors in the embryonic PNS of Drosophila promoting the development of oenocytes Development, January 3, 2001; 128(5): 711 - 722. [Abstract] [PDF]

				D. A. Papatsenko, V. J. Makeev, A. P. Lifanov, M. Regnier, A. G. Nazina, and C. Desplan Extraction of Functional Binding Sites from Unique Regulatory Regions: The Drosophila Early Developmental Enhancers Genome Res., March 1, 2002; 12(3): 470 - 481. [Abstract] [Full Text] [PDF]