A genetic screen for modifiers of Deformed homeotic function identifies novel genes required for head development

G. Gellon; K.W. Harding; N. McGinnis; M.M. Martin; W. McGinnis

Summary

Only a few genes have been identified that participate in the developmental pathways which modulate homeotic (HOX) protein specificity or mediate HOX morphogenetic function. To identify more HOX pathway genes, we screened for mutations on loci on the Drosophila second chromosome that interact with the homeotic gene Deformed (Dfd). Genetic and molecular tests on the eight genes isolated in the screen place them in three general categories. Two genes appear to encode trithorax group functions, i.e. they are general activators of Hox gene expression or function. Four genes encode abundant, widely expressed proteins that may be required to mediate Dfd morphogenetic functions in certain tissues, including two genes for collagen IV protein variants. Finally, two of the genes are required for the development of a subset of embryonic Dfd-dependent structures, while leaving many other segmental structures intact. We cloned and characterized one of these two, which we have named apontic (apt). apt is required for the elaboration of dorsal and ventral head structures. It encodes a 484-amino-acid protein with no significant similarity to known protein sequences. The apt transcript pattern is normal in Dfd and Scr mutants, and the Dfd and Scr transcript patterns are normal in apt mutants. We propose that apt acts in parallel to, or as a cofactor with, HOX proteins to regulate homeotic targets in the ventral gnathal region.

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[1] Akam M. E.
(1987) The molecular basis for metameric pattern in the Drosophila embryo. Development 101, 1–22
OpenUrl Abstract/FREE Full Text

[2] Akam M. E.

[3] Bergson C.,
McGinnis W.
(1990) The autoregulatory enhancer element of the Drosophila homeotic gene Deformed. EMBO J 9, 4287–4297
OpenUrl PubMed Web of Science

[4] Bergson C.,

[5] McGinnis W.

[6] Bernstein S. I.,
O'Donnell P. T.,
Cripps R. M.
(1993) Molecular genetic analysis of muscle development, structure, and function in Drosophila. Int. Rev. Cytol 143, 63–151
OpenUrl CrossRef PubMed Web of Science

[7] Bernstein S. I.,

[8] O'Donnell P. T.,

[9] Cripps R. M.

[10] Borchiellini C.,
Coulon J.,
Le Parco Y.
(1996) The function of type IV collagen during Drosophila muscle development. Mech. Dev 58, 179–191
OpenUrl CrossRef PubMed

[11] Borchiellini C.,

[12] Coulon J.,

[13] Le Parco Y.

[14] Breen T. R.,
Harte P. J.
(1993) trithorax regulates multiple homeotic genes in the bithorax and Antennapedia complexes and exerts different tissue-specific, parasegment-specific and promoter-specific effects on each. Development 117, 119–134
OpenUrl Abstract/FREE Full Text

[15] Breen T. R.,

[16] Harte P. J.

[17] Brown N. H.,
Kafatos F. C.
(1988) Functional cDNA libraries from Drosophila embryos. Mol. Biol 203, 425–437

[18] Brown N. H.,

[19] Kafatos F. C.

[20] Chadwick R.,
Jones B.,
Jack T.,
McGinnis W.
(1990) Ectopic expression from the Deformed gene triggers a dominant defect in Drosophila adult head development. Dev. Biol 141, 130–140
OpenUrl CrossRef PubMed

[21] Chadwick R.,

[22] Jones B.,

[23] Jack T.,

[24] McGinnis W.

[25] Chan S. K.,
Mann R. S.
(1996) A structural model for a HOX-extradenticle-DNA complex accounts for the choice of the HOX protein in the heterodimer. Proc. Nat. Acad. Sci. USA 93, 5223–5228
OpenUrl Abstract/FREE Full Text

[26] Chan S. K.,

[27] Mann R. S.

[28] Clark J.,
Moore L.,
Krasinskas A.,
Way J.,
Battey J.,
Tamkun J.,
Kahn R. A.
(1993) Selective amplification of additional members of the ADP-ribosylation factor (ARF) family: Cloning of additional human and Drosophila ARF-like genes. Proc. Nat. Acad. Sci.USA 90, 8952–8956
OpenUrl Abstract/FREE Full Text

[29] Clark J.,

[30] Moore L.,

[31] Krasinskas A.,

[32] Way J.,

[33] Battey J.,

[34] Tamkun J.,

[35] Kahn R. A.

[36] de Zulueta P.,
Alexandre E.,
Jacq B.,
Kerridge S.
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OpenUrl Abstract

[37] de Zulueta P.,

[38] Alexandre E.,

[39] Jacq B.,

[40] Kerridge S.

[41] Fernandes J.,
Celniker S. E.,
Lewis E. B.,
VijayRaghavan K.
(1994) Muscle development in the four-winged Drosophila and the role of the Ultrabithorax gene. Curr. Biol 4, 957–964
OpenUrl CrossRef PubMed

[42] Fernandes J.,

[43] Celniker S. E.,

[44] Lewis E. B.,

[45] VijayRaghavan K.

[46] García-Alonso L.,
Fetter R. D.,
Goodman C. S.
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OpenUrl Abstract

[47] García-Alonso L.,

[48] Fetter R. D.,

[49] Goodman C. S.

[50] García-Bellido A.
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OpenUrl

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Morata G.
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OpenUrl CrossRef PubMed Web of Science

[53] González-Reyes A.,

[54] Morata G.

[55] Gorman M. J.,
Kaufman T. C.
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OpenUrl Abstract/FREE Full Text

[56] Gorman M. J.,

[57] Kaufman T. C.

[58] Gullberg D.,
Fessler L. I.,
Fessler J. H.
(1994) Differentiation, extracellular matrix synthesis, and integrin assembly by Drosophila embryo cultured on vitronectin and laminin substrates. Dev. Dynam 199, 116–128
OpenUrl CrossRef PubMed Web of Science

[59] Gullberg D.,

[60] Fessler L. I.,

[61] Fessler J. H.

[62] Harding K.,
Levine M.
(1988) Gap genes define the limits of Antennapedia and Bithorax gene expression during early development in Drosophila. EMBO J 7, 205–214
OpenUrl PubMed Web of Science

[63] Harding K.,

[64] Levine M.

[65] Harding K. W.,
Gellon G.,
McGinnis N.,
McGinnis W.
(1995) A screen for Dfd modifier mutations in Drosophila. Genetics 140, 1339–1352
OpenUrl Abstract/FREE Full Text

[66] Harding K. W.,

[67] Gellon G.,

[68] McGinnis N.,

[69] McGinnis W.

[70] Henchcliffe C.,
García-Alonso L.,
Tang J.,
Goodman C. S.
(1993) Genetic analysis of laminin A reveals diverse functions during morphogenesis in Drosophila. Development 118, 325–337
OpenUrl Abstract

[71] Henchcliffe C.,

[72] García-Alonso L.,

[73] Tang J.,

[74] Goodman C. S.

[75] Irish V. F.,
Martínez-Arias A.,
Akam M.
(1989) Spatial regulation of the Antennapedia and Ultrabithorax homeotic genes during Drosophila early development. EMBO J 8, 1527–1537
OpenUrl PubMed Web of Science

[76] Irish V. F.,

[77] Martínez-Arias A.,

[78] Akam M.

[79] Jack T.,
McGinnis W.
(1990) Establishment of the Deformed expression stripe requires the combinatorial action of coordinate, gap and pair-rule proteins. EMBO J 9, 1187–1198
OpenUrl PubMed Web of Science

[80] Jack T.,

[81] McGinnis W.

[82] Jack T.,
Regulski M.,
McGinnis W.
(1988) Pair-rule segmentation genes regulate the expression of the homeotic selector gene, Deformed. Genes Dev 2, 635–651

[83] Jack T.,

[84] Regulski M.,

[85] McGinnis W.

[86] Jurgens G.
(1985) A group of genes controlling the spatial expression of the bithorax complex of Drosophila. Nature 316, 153–155
OpenUrl CrossRef

[87] Jurgens G.

[88] Jurgens G.
(1988) Head and tail development of the Drosophila embryo involves spalt, a novel homeotic gene. EMBO J 7, 189–196
OpenUrl PubMed Web of Science

[89] Jurgens G.

[90] Kennison J. A.,
Russell M. A.
(1987) Dosage dependent modifiers of homeotic mutations in Drosophila melanogaster. Genetics 116, 75–86
OpenUrl Abstract/FREE Full Text

[91] Kennison J. A.,

[92] Russell M. A.

[93] Kennison J. A.,
Tamkun J. W.
(1988) Dosage-dependent modifiers of Polycomb and Antennapedia mutations in Drosophila. Proc. Nat. Acad. Sci. USA 85, 8136–8140
OpenUrl Abstract/FREE Full Text

[94] Kennison J. A.,

[95] Tamkun J. W.

[96] Lewis E. B.
(1963) Genes and developmental pathways. Am. Zool 3, 33–56

[97] Lewis E. B.

[98] Lou L.,
Bergson C.,
McGinnis W.
(1995) Deformed expression in the Drosophila central nervous system is controlled by an autoactivated intronic enhancer. Nucl. Acids Res 23, 3481–3487
OpenUrl Abstract/FREE Full Text

[99] Lou L.,

[100] Bergson C.,

[101] McGinnis W.

[102] Mann R. S.
(1995) The specificity of homeotic gene function. BioEssays 17, 855–863
OpenUrl CrossRef PubMed Web of Science

[103] Mann R. S.

[104] McGinnis W.,
Jack T.,
Chadwick R.,
Regulski M.,
Bergson C.,
McGinnis N.,
Kuziora M. A.
(1990) Establishment and maintenance of position-specific expression of the Drosophila homeotic selector gene Deformed. Adv. Genet 27, 363–402
OpenUrl PubMed

[105] McGinnis W.,

[106] Jack T.,

[107] Chadwick R.,

[108] Regulski M.,

[109] Bergson C.,

[110] McGinnis N.,

[111] Kuziora M. A.

[112] McGinnis W.,
Krumlauf R.
(1992) Homeobox genes and axial patterning. Cell 68, 283–302
OpenUrl CrossRef PubMed Web of Science

[113] McGinnis W.,

[114] Krumlauf R.

[115] Merrill V. K. L.,
Turner F. R.,
Kaufman T. C.
(1987) A genetic and developmental analysis of mutations in the Deformed locus in Drosophila melanogaster. Dev. Biol 122, 379–395
OpenUrl CrossRef PubMed

[116] Merrill V. K. L.,

[117] Turner F. R.,

[118] Kaufman T. C.

[119] Mohler J.,
Mahaffey J. W.,
Deutsch E.,
Vani K.
(1995) Control of Drosophila head segment identity by the bZIP homeotic gene cnc. Development 121, 237–247
OpenUrl Abstract

[120] Mohler J.,

[121] Mahaffey J. W.,

[122] Deutsch E.,

[123] Vani K.

[124] Morata G.
(1993) Homeotic genes of Drosophila. Curr. Opin. Genet. Dev 3, 606–614
OpenUrl CrossRef PubMed

[125] Morata G.

[126] O'Hara E.,
Cohen B.,
Cohen S. M.,
McGinnis W.
(1993) Distal-less isa downstream gene of Deformed required for ventral maxillary identity. Development 117, 847–856
OpenUrl Abstract

[127] O'Hara E.,

[128] Cohen B.,

[129] Cohen S. M.,

[130] McGinnis W.

[131] Pattatucci A. M.,
Otteson D. C.,
Kaufman T. C.
(1991) A functional and structural analysis of the Sex-combs reduced locus of Drosophila melanogaster. Genetics 129, 423–441
OpenUrl Abstract/FREE Full Text

[132] Pattatucci A. M.,

[133] Otteson D. C.,

[134] Kaufman T. C.

[135] Pinsonneault J.,
Florence B.,
Vaessin H.,
McGinnis W.
(1997) A model for extradenticle function as a switch that changes HOX proteins from repressors to activators. EMBO J 16, 2032–2042
OpenUrl Abstract

[136] Pinsonneault J.,

[137] Florence B.,

[138] Vaessin H.,

[139] McGinnis W.

[140] Rauskolb C.,
Wieschaus E.
(1994) Coordinate regulation of downstream genes by extradenticle and the homeotic selector proteins. EMBOJ 13, 3561–3569
OpenUrl PubMed Web of Science

[141] Rauskolb C.,

[142] Wieschaus E.

[143] Regulski M.,
McGinnis N.,
Chadwick R.,
McGinnis W.
(1987) Developmental and molecular analysis of Deformed: A homeotic gene controlling Drosophila head development. EMBO J 6, 767–777
OpenUrl PubMed Web of Science

[144] Regulski M.,

[145] McGinnis N.,

[146] Chadwick R.,

[147] McGinnis W.

[148] Restifo L. L.,
Merrill V. K. L.
(1994) Two Drosophila regulatory genes, Deformed and the Broad-Complex, share common functions in development of adult CNS, head, and salivary glands. Dev. Biol 162, 465–485
OpenUrl CrossRef PubMed Web of Science

[149] Restifo L. L.,

[150] Merrill V. K. L.

[151] Rodríguez A.,
Zhou Z.,
Tang M. L.,
Meller S.,
Chen J.,
Bellen H.,
Kimbrell D. A.
(1996) Identification of Immune System and Response Genes, and Novel Mutations Causing Melanotic Formation in Drosophila melanogaster. Genetics 143, 929–940
OpenUrl Abstract/FREE Full Text

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Other journals from The Company of Biologists

Interviews — Bénédicte Sanson and Kate Storey

Review Commons launches

Have you heard about our Travelling Fellowships?

Publishing peer review reports

Development at a glance — Cell interactions in collective cell migration