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JOURNAL ARTICLES
Sex-lethal, the master sex-determining gene in Drosophila, is not sex-specifically regulated in Musca domestica
M. Meise, D. Hilfiker-Kleiner, A. Dubendorfer, C. Brunner, R. Nothiger, D. Bopp
Development 1998 125: 1487-1494;

Summary

Sex-lethal (Sxl) is the master switch gene for somatic sex determination in Drosophila melanogaster. In XX animals, Sxl becomes activated and imposes female development; in X(Y) animals, Sxl remains inactive and male development ensues. A switch gene for sex determination, called F, has also been identified in the housefly, Musca domestica. An active F dictates female development, while male development ensues when F is inactive. To test if the switch functions of Sxl and F are founded on a common molecular basis, we isolated the homologous Sxl gene in the housefly. Though highly conserved in sequence, Musca-Sxl is not sex-specifically regulated: the same transcripts and protein isoforms are expressed in both male and female animals throughout development. Musca-Sxl is apparently not controlled by the primary sex-determining signal and, thus, is unlikely to correspond to the F gene. Ectopic expression of Musca-SXL protein in Drosophila does not exert any noticeable effects on the known target genes of endogenous Sxl. Instead, forced overexpression of the transgene eventually results in lethality of both XY and XX animals and in developmental abnormalities in some escaper XY animals. Similar results were obtained with the Sxl homologue of Ceratitis capitata (Saccone, G., Peluso, I., Artiaco, D., Giodano, E., Bopp, D. and Polito, L. C. (1998) Development 125, 1495–1500) suggesting that, in these non-drosophilid species, Sxl performs a function different from that in sex determination.

REFERENCES

    1. Bashaw G. J.,
    2. Baker B. S.
    (1995) The msl-2 dosage compensation gene of Drosophila encodes a putative DNA-binding protein whose expression is sex-specifically regulated by Sex-lethal. Development 121, 32453258
    OpenUrlAbstract
    1. Bell L. R.,
    2. Maine E. M.,
    3. Schedl P.,
    4. Cline T. W.
    (1988) Sex-lethal, a Drosophila sex determination switch gene, exhibits sex-specific RNA splicing and sequence similarity to RNA binding proteins. Cell 55, 10371046
    OpenUrlCrossRefPubMedWeb of Science
    1. Bell L. R.,
    2. Horabin J. I.,
    3. Schedl P.,
    4. Cline T. W.
    (1991) Positive autoregulation of Sex-lethal by alternative splicing maintains the female determined state in Drosophila. Cell 65, 229239
    OpenUrlCrossRefPubMedWeb of Science
    1. Bopp D.,
    2. Bell L. R.,
    3. Cline T. W.,
    4. Schedl P.
    (1991) Developmental distribution of female-specific Sex-lethal proteins in Drosophila melanogaster. Genes Dev 5, 403415
    OpenUrlAbstract/FREE Full Text
    1. Bopp D.,
    2. Horabin J. I.,
    3. Lersch R. A.,
    4. Cline T. W.,
    5. Schedl P.
    (1993) Expression of the Sex-lethal gene is controlled at multiple levels during Drosophila oogenesis. Development 118, 797812
    OpenUrlAbstract
    1. Cline T. W.
    (1993) The Drosophila sex determination signal: how do flies count to two?. Trends Genet 9, 385390
    OpenUrlCrossRefPubMedWeb of Science
    1. Cline T. W.,
    2. Meyer B. J.
    (1996) Vive la difference: males vs females in flies vs worms. Annu. Rev. Genet 30, 637702
    OpenUrlCrossRefPubMedWeb of Science
    1. Erickson J. W.,
    2. Cline T. W.
    (1991) Molecular nature of the Drosophila sex determination signal and its link to neurogenesis. Science 251, 10711074
    OpenUrlAbstract/FREE Full Text
    1. Estes P. A.,
    2. Keyes L. N.,
    3. Schedl P.
    (1995) Multiple response elements in the Sex-lethal early promoter ensure its female-specific expression pattern. Mol. Cell. Biol 15, 904917
    OpenUrlAbstract/FREE Full Text
    1. Hilfiker-Kleiner D.,
    2. Dubendorfer A.,
    3. Hilfiker A.,
    4. Nöthiger R.
    (1993) Developmental analysis of two sex-determining genes, M and F, in the housefly, Musca domestica. Genetics 134, 11891194
    OpenUrl
    1. Horabin J. I.,
    2. Bopp D.,
    3. Waterbury J.,
    4. Schedl P.
    (1995) Selection and maintenance of sexual identity in the Drosophila germ line. Genetics 141, 15211535
    OpenUrlAbstract/FREE Full Text
    1. Inoue K.,
    2. Hoshijima K.,
    3. Sakamoto H.,
    4. Shimura Y.
    (1990) Binding of the Drosophila Sex-lethal gene product to the alternative splice site of transformer primary transcript. Nature 344, 461463
    OpenUrlCrossRefPubMed
    1. Kelley R. L.,
    2. Solovyeva I.,
    3. Lyman L. M.,
    4. Richman R.,
    5. Solovyev V.,
    6. Kuroda M. I.
    (1995) Expression of Msl-2 causes assembly of dosage compensation regulators on the X-chromosome and female lethality in Drosophila. Cell 81, 867877
    OpenUrlCrossRefPubMedWeb of Science
    1. Kelley R. L.,
    2. Wang J.,
    3. Bell L.,
    4. Kuroda M. I.
    (1997) Sex lethal controls dosage compensation in Drosophila by a non-splicing mechanism. Nature 387, 1959
    OpenUrlCrossRefPubMed
    1. Keyes L. N.,
    2. Cline T.,
    3. Schedl P.
    (1992) The primary sex determination signal of Drosophila acts at the level of transcription. Cell 68, 933943
    OpenUrlCrossRefPubMedWeb of Science
    1. Lucchesi J. C.
    (1996) Dosage compensation in Drosophila and the ‘complex’ world of transcriptional regulation. BioEssays 18, 5417
    OpenUrlCrossRefPubMedWeb of Science
    1. McDonald I. C.,
    2. Evenson P.,
    3. Nickel C. A.,
    4. Johnson O. A.
    (1978) House fly genetics: Isolation of a female determining factor on chromosome 4. Ann. Entomol. Soc. Amer 71, 692694
    OpenUrl
    1. McKeown M.,
    2. Belote J. M.,
    3. Boggs R. T.
    (1988) Ectopic expression of the female transformer gene product leads to female differentiation of chromosomally male Drosophila. Cell 53, 887895
    OpenUrlCrossRefPubMedWeb of Science
    1. Muller-Holtkamp F.
    (1995) The Sex-lethal gene homologue in Chrysomya rufifacies is highly conserved in sequence and exon-intron organization. J. Mol. Evol 41, 467477
    OpenUrlCrossRefPubMedWeb of Science
    1. Parkhurst S. M.,
    2. Meneeley P. M.
    (1994) Sex determination and dosage compensation: lessons from flies and worms. Science 264, 924932
    OpenUrlAbstract/FREE Full Text
    1. Penalva L. O. F.,
    2. Sakamoto H.,
    3. Navarro-Sabate A.,
    4. Sakashita E.,
    5. Granadino B.,
    6. Segarra C.,
    7. Sánchez L.
    (1996) Regulation of the gene Sex-lethal: a comparative analysis of Drosophila melanogaster and Drosophila subobscura. Genetics 144, 16531664
    OpenUrlAbstract/FREE Full Text
    1. Perje A.-M.
    (1948) Studies on the spermatogenesis in Musca domestica. Hereditas 34, 209232
    OpenUrlWeb of Science
    1. Saccone G.,
    2. Peluso I.,
    3. Artiaco D.,
    4. Giordano E.,
    5. Bopp D.,
    6. Polito L. C.
    (1998) The Ceratitis capitata homologue of the Drosophila sex-determining gene Sex-lethal is structurally conserved, but not sex-specifically regulated. Development 125, 14951500
    OpenUrlAbstract
    1. Sakashita E.,
    2. Sakamoto H.
    (1994) Characterization of RNA binding specificity of the Drosophila Sex-lethal protein by in vitro ligand selection. Nuc. Acid Res 22, 40824086
    OpenUrlAbstract/FREE Full Text
    1. Sakashita E.,
    2. Sakamoto H.
    (1996) Protein-RNA and protein-protein interactions of the Drosophila Sex-lethal mediated by its RNA-binding domains. J. Biochem 120, 10281033
    OpenUrl
    1. Samuels M. E.,
    2. Schedl P.,
    3. Cline T. W.
    (1991) The complex set of late transcripts from the Drosophila sex determination gene Sex-lethal encodes multiple related polypeptides. Mol. Cell. Biol 11, 35843602
    OpenUrlAbstract/FREE Full Text
    1. Samuels M. E.,
    2. Bopp D.,
    3. Colvin R.,
    4. Roscigno R. F.,
    5. Garcia-Blanco M. A.,
    6. Schedl P.
    (1994) RNA binding by Sxl proteins in vitro and in vivo. Mol. Cell. Biol 14, 49754990
    OpenUrlAbstract/FREE Full Text
    1. Schmidt R.,
    2. Hediger M.,
    3. Nöthiger R.,
    4. Dubendorfer A.
    (1997) The mutation masculinizer (man) defines a sex-determining gene with maternal and zygotic functions in Musca domestica L. Genetics 145, 173183
    OpenUrlAbstract/FREE Full Text
    1. Sievert V.,
    2. Kuhn S.,
    3. Traut W.
    (1997) Expression of the sex-determining cascade genes Sex-lethal and doublesex in the phorid fly Megaselia scalaris. Genome 40, 211214
    1. Sommer R.,
    2. Tautz D.
    (1991) Segmentation gene expression in the housefly Musca domestica. Development 113, 419430
    OpenUrlAbstract
    1. Sosnowski B. A.,
    2. Belote J. M.,
    3. McKeown M.
    (1989) Sex-specific alternative splicing of RNA from the transformer gene results from sequence-dependent splice site blockage. Cell 58, 449459
    OpenUrlCrossRefPubMedWeb of Science
    1. Valcárcel J.,
    2. Singh R.,
    3. Zamore P. D.,
    4. Green M. R.
    (1993) The protein Sex-lethal antagonizes the splicing factor U2AF to regulate alternative splicing of transformer pre-mRNA. Nature 362, 171173
    OpenUrlCrossRefPubMed
    1. Wang J.,
    2. Bell L.
    (1994) The Sex-lethal amino terminus mediates cooperative interactions in RNA binding and is essential for splicing regulation. Genes Dev 8, 20722085
    OpenUrlAbstract/FREE Full Text
    1. Zhou S.,
    2. Yang Y.,
    3. Scott M. J.,
    4. Pannuti A.,
    5. Fehr K. C.,
    6. Eisen A.,
    7. Koonin E. V.,
    8. Fouts D. L.,
    9. Wrightman R.,
    10. Manning J. E.,
    11. Lucchesi J. C.
    (1995) Male-specific lethal-2, a dosage compensation gene of Drosophila undergoes sex-specific regulation and encodes a protein with a RING finger and a metallothionein-like cystein cluster. EMBO J 14, 28842895
    OpenUrlPubMedWeb of Science
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JOURNAL ARTICLES
Sex-lethal, the master sex-determining gene in Drosophila, is not sex-specifically regulated in Musca domestica
M. Meise, D. Hilfiker-Kleiner, A. Dubendorfer, C. Brunner, R. Nothiger, D. Bopp
Development 1998 125: 1487-1494;
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