Novel patterns of homeotic protein accumulation in the head of the Drosophila embryo

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JOURNAL ARTICLES

Novel patterns of homeotic protein accumulation in the head of the Drosophila embryo

JW Mahaffey, RJ Diederich and TC Kaufman
Department of Biology, Indiana University, Bloomington 47405.

Antibodies that specifically recognize proteins encoded by the homeotic genes: Sex combs reduced, Deformed, labial and proboscipedia, were used to follow the distribution of these gene products during embryogenesis. The position of engrailed-expressing cells was used as a reference and staining conditions were established that could distinguish, among cells expressing engrailed, one of the homeotic proteins or both. Our observations demonstrate two important facts about establishing identity in the head segments. First, in contrast to the overlapping pattern of homeotic gene expression in the trunk segments, we observe a non-overlapping pattern in the head for those homeotic proteins required during embryogenesis. In contrast, the spatial accumulation of the protein product of the non-vital proboscipedia locus overlaps partially with the distribution of the Deformed and Sex combs reduced proteins in the maxillary and labial segments, respectively. Second, two of the proteins, Sex combs reduced and Deformed, have different dorsal and ventral patterns of accumulation. Dorsally, these proteins are expressed in segmental domains while, within the ventral region, a parasegmental register is observed. The boundary where this change in pattern occurs coincides with the junction between the ventral neurogenic region and the dorsal epidermis. After contraction of the germ band, when the nerve cord has completely separated from the epidermis, the parasegmental pattern is observed only within the ventral nerve cord while a segmental register is maintained throughout the epidermis.
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				A. Abzhanov, S. Holtzman, and T. C. Kaufman The Drosophila proboscis is specified by two Hox genes, proboscipedia and Sex combs reduced, via repression of leg and antennal appendage genes Development, July 15, 2001; 128(14): 2803 - 2814. [Abstract] [Full Text] [PDF]

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				F Hirth, B Hartmann, and H Reichert Homeotic gene action in embryonic brain development of Drosophila Development, January 5, 1998; 125(9): 1579 - 1589. [Abstract] [PDF]

				B. Rogers, M. Peterson, and T. Kaufman Evolution of the insect body plan as revealed by the Sex combs reduced expression pattern Development, January 1, 1997; 124(1): 149 - 157. [Abstract] [PDF]

				J Mohler, J. Mahaffey, E Deutsch, and K Vani Control of Drosophila head segment identity by the bZIP homeotic gene cnc Development, January 1, 1995; 121(1): 237 - 247. [Abstract] [PDF]

				A. Prokop and G. M. Technau Early tagma-specific commitment of Drosophila CNS progenitor NB1-1 Development, September 1, 1994; 120(9): 2567 - 2578. [Abstract] [PDF]

				U Grossniklaus, K. Cadigan, and W. Gehring Three maternal coordinate systems cooperate in the patterning of the Drosophila head Development, January 11, 1994; 120(11): 3155 - 3171. [Abstract] [PDF]

				J. Mahaffey, D. Jones, J. Hickel, and C. Griswold Identification and characterization of a gene activated by the deformed homeoprotein Development, January 5, 1993; 118(1): 203 - 214. [Abstract] [PDF]

				E O'Hara, B Cohen, S. Cohen, and W McGinnis Distal-less is a downstream gene of Deformed required for ventral maxillary identity Development, January 3, 1993; 117(3): 847 - 856. [Abstract] [PDF]

				R J Diederich, V K Merrill, M A Pultz, and T C Kaufman Isolation, structure, and expression of labial, a homeotic gene of the Antennapedia Complex involved in Drosophila head development. Genes & Dev., March 1, 1989; 3(3): 399 - 414. [Abstract] [PDF]