The Drosophila 18 wheeler is required for morphogenesis and has striking similarities to Toll

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Akam, M (1989). Making stripes inelegantly. Nature 341, 282-283.[Medline]

Baker, N. E (1988). Embryonic and imaginal requirements for wingless, a segment-polarity gene in Drosophila. Dev. Biol 125, 96-108.[Medline]

Bellen, H. J., Kooyer, S., D'Evelyn, D. and Pearlman, J (1992). The Drosophila Couch potato protein is expressed in neural precursors and encodes nuclear proteins that contain RNA binding domains. Genes Dev 6, 2125-2136.[Abstract/Free Full Text]

Bellen, H. J., O'Kane, C. J., Wilson, C., Grossniklaus, U., Pearson, R. K. and Gehring, W. J (1989). P-element-mediated enhancer detection: a versatile method to study development in Drosophila. Genes Dev 3, 1288-1300.[Abstract/Free Full Text]

Bier, E., Vaessin, H., Shepherd, S., Lee, K., McCall, K., Barbel, S., Ackerman, L., Carretto, R., Uemura, T., Grell, E., Jan, L. Y. and Jan, Y.N (1989). Searching for pattern and mutation in the Drosophila genome with a P-lacZ vector. Genes Dev 3, 1273-1287.[Abstract/Free Full Text]

Botas, J (1993). Control of morphogenesis and differentiation by HOM/HOX genes. Current Opin. Cell Bio 5, 1015-1022.[Medline]

Bunch, T. A., Grunblat, Y. and Goldstein, L. S (1988). Characterization and use of the Drosophila metallothionein promoter in cultured Drosophila melanogaster cells. Nucl. Acids Res 16, 1043-1061.[Abstract/Free Full Text]

Burtis, K. C., Thummel, C. S., Weldon Jones, C., Karim, F. D. and Hogness, D. S (1990). The Drosophila 74E early puff contains E74, a complex ecdyson-inducible gene that encodes two ets-related proteins. Cell 61, 85-99.[Medline]

Cavener, D. R (1987). Comparison of the consensus sequence flanking translational start sites in Drosophila and vertebrates. Nucl. Acids Res 15, 1353-1361.[Abstract/Free Full Text]

Chang, Z., Price, D., Bockheim, S., Boedigheimer, M. J., Smith, R., and Laughon, A (1993). Molecular and genetic characterization of the Drosophila tartan gene. Dev. Bio 160, 315-333.[Medline]

Engel, J (1989). EGF-like domains in extracellular matrixproteins: localized signals for growth and differentiation?. FEBS Lett 251, 1-7.[Medline]

Engstr\232m, Y., Kadalayil, L., Sun, S. C., Samakovlis, C., Hultmark, D., and Faye, I (1993). kappa B-like motifs regulate the induction of immune genes in Drosophila. J. Mol. Biol 232, 327-333.[Medline]

Garcia-Bellido, A (1977). Homeotic and atavic mutations in insects. Am. Zool 17, 613-630.

Gerttula, S., Jin, Y. S. and Anderson, K. V (1988). Zygotic expression and activity of the DrosophilaToll gene, a gene required maternally for embryonic dorsal-ventral pattern formation. Genetics 119, 123-133.[Abstract/Free Full Text]

Grossniklaus, U., Pearson, R. K. and Gehring, W. J (1992). The Drosophila sloppy paired locus encodes 2 proteins involved in segmentation that show homology to mammalian transcription factors. Genes Dev 6, 1030-1051.[Abstract/Free Full Text]

Guida, S., Heguy, A. and Melli, M (1992). The chicken IL-1 receptor: differential evolution of the cytoplasmic and extracellular domains. Gene 111, 239-243.[Medline]

Hashimoto, C., Gerttula, S. and Anderson, K. V (1991). Plasma membrane localization of the Toll protein in the syncytial Drosophila embryo- importance of transmembrane signaling for dorsal ventral pattern formation. Development 111, 1021-1028.[Abstract/Free Full Text]

Hashimoto, C., Hudson, K. L. and Anderson, K. V (1988). The Toll gene of Drosophila , required for dorsal-ventral embryonic polarity, appears to encode a transmembrane protein. Cell 52, 269-279.[Medline]

Heguy, A., Baldari, C. T., Macchia, G., Telford, J. L. and Melli, M (1992). Amino acids conserved in interleukin-1 receptors and the Drosophila Toll protein are essential for IL-1R signal transduction. J. Biol. Chem 267, 2605-2609.[Abstract/Free Full Text]

Ingham, P. W., Taylor, A. M. and Nakano, Y (1991). Role of the Drosophila patched gene in positional signalling. Nature 353, 184-187.[Medline]

Ip, Y. T., Reach, M., Engstr\232m, Y., Kadalayil, L., Cai, H., Gonzelez-Crespo, S., Tatei, K. and Levine, M (1993). Dif, a dorsal-related gene that mediates an immune response in Drosophila. Cell 75, 753-763.[Medline]

Jalkanen, S., Jalkanen, M., Bargatze, R., Tammi, M. and Butcher, E (1988). Biochemical properties of glycoproteins involved in lymphocyte recognition of high endothelial venules in man. J. Immunol 141, 1615-1623.[Abstract]

Jokerst, R. S., Weeks, J. R., Zehring, W. A. and Greenleaf, A. L (1989). Analysis of the gene encoding the largest subunit of RNA polymerase II in Drosophila. Mol. Gen. Genet 215, 266-275.[Medline]

Kania, A., Han, P.-L., Kim, Y.-T. and Bellen, H. J (1993). neuromusculin , a Drosophila gene expressed in peripheral neuronal precursors and muscles, encodes a cell adhesion molecule. Neuron 11, 673-687.[Medline]

Karpen, G. and Spradling, A. C (1992). Analysis of subtelomeric heterochromatin in the Drosophila minichromosome Dp1187 by single P element insertional mutagenesis. Genetics 132, 737-753.[Abstract]

Keith, F. J. and Gay, N. J (1990). The Drosophila membrane receptor Toll can function to promote cellular adhesion. EMBO J 9, 4299-4306.[Medline]

Kl\212mbt, C., Glazer, L. and Shilo, B.-Z (1992). breathless , a Drosophila FGF receptor homolog, is essential for migration of tracheal and specific midline glial cells. Genes Dev 6, 1668-1678.[Abstract/Free Full Text]

Kl\212mbt, C., Jacobs, J. R. and Goodman, C. S (1991). The midline of the Drosophila central nervous system: a model genetic analysis of cell fate, cell migration, and growth cone guidance. Cell 64, 801-815.[Medline]

Krantz, D. E., Zidovetzki, R., Kagan, B. L., and S. L. Zipursky (1991). Amphipathic beta structure of a leucine-rich repeat peptide. J. Biol. Chem 266, 16801-16807.[Abstract/Free Full Text]

Krantz, D. E. and Zipursky, S. L (1990). Drosophila chaoptin, a member of the leucine-rich repeat family, is a photoreceptor cell-specific adhesion molecule. EMBO J 9, 1969-1977.[Medline]

Krusius, T. and Ruoslahti, E (1986). Primary structure of an extracellular matrix proteoglycan core protein deduced from cloned cDNA. Proc. Natl. Acad. Sci. USA 83, 7683-7687.[Abstract/Free Full Text]

Langer-Safer, P. R., Levine, M. and Ward, D. C (1982). Immunological method for mapping genes on Drosophila polytene chromosomes. Proc. Nat. Acad. Sci. USA 79, 4381-4385.[Abstract/Free Full Text]

Lee, J. J., von Kessler, D. P., Parks, S., and Beachy, P. A (1992). Secretion and localized transcription suggest a role in positional signaling for products of the segmentation gene hedgehog. Cell 71, 33-50.[Medline]

Lyttle, T (1984). Chromosomal control of fertility in Drosophila melanogaster . I. Rescue of T(Y;A)/bbl-158 male sterility by chromosome rearrangement. Genetics 106, 423-434.[Abstract/Free Full Text]

Mackay, W. J., Reynolds, E. R. and O'Donnel, J. M (1985). Tissue-specific and complex complementation patterns in the Punch locus of Drosophila melanogaster. Genetics 111, 885-904.[Abstract/Free Full Text]

Miyata, T., Miyazawa, S., and Yasonaga, T (1979). Two types of amino acid substitution in protein evolution. J. Mol. Evol 12, 219-236.[Medline]

Nose, A., Mahajan, V. B., and Goodman, C. S (1992). Connectin: a homophilic cell adhesion molecule expressed on a subset of muscles and the motoneurons that innervate them in Drosophila. Cell 70, 553-567.[Medline]

Nusslein-Volhard, C. and Wieschaus, E (1980). Mutations affecting segment number and polarity in Drosophila. Nature 287, 795-801.[Medline]

O'Kane, C. J. and Gehring, W. J (1987). Detection in situ of genomic regulatory elements in Drosophila. Proc. Nat. Acad. Sci. USA 84, 9123-9127.[Abstract/Free Full Text]

Peifer, M. and Bejesovec, A (1992). Knowing your neighbors: cell interactions determine intrasegmental patterning in Drosophila. Trends Genet 8, 243-248.

Perrimon, N., Engstrom L., and Mahowald, A. P (1984). The effects of zygotic lethal mutations on female germ-line functions in Drosophila. Dev. Biol 105, 404-414.[Medline]

Perrimon, N. and Mahowald, A. P (1987). Multiple functions of segment polarity genes in Drosophila. Dev. Biol 119, 587-600.[Medline]

Reinke, R., Krantz, D. E., Yen, D. and Zipurski, S. L (1988). Chaoptin, a cell surface glycoprotein required for Drosophila photoreceptor cell morphogenesis, contains a repeat motif found in yeast and human. Cell 52, 291-301.[Medline]

Rothberg, J. M., Hartley, D. A., Walther, Z. and Artavanis, T. S (1988). slit : an EGFhomologous locus of D. melanogaster involved in the development of the embryonic central nervous system. Cell 55, 1047-1059.[Medline]

Rothberg, J. M., Jacobs, J. R., Goodman, C. S. and Artavanis, T. S (1990). slit: an extracellular protein necessary for development of midline glia and commissural axon pathways contains both EGF and LRR domains. Genes Dev 4, 2169-2187.[Abstract/Free Full Text]

Schneider, D. S., Hudson, K. L., Lin, T. Y. and Anderson, K. V (1991). Dominant and recessive mutations define functional domains of Toll, a transmembrane protein required for dorsal-ventral polarity in the Drosophila embryo. Genes Dev 5, 797-807.[Abstract/Free Full Text]

Snow, P. M., Bieber, A. J. and Goodman, C. S (1989). Drosophilafasciclin III : a novel homophilic adhesion molecule. Cell 59, 313-323.[Medline]

Tautz, D. and Pfeifle, C (1989). A non-radioactive in situ hybridization method for the localization of specific RNAs in Drosophila embryos reveals translational control of the segmentation gene hunchback. Chromosoma 98, 81-85.[Medline]

Towbin, H., Staehelin, T. and Gordon, J (1979). Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellusose sheets: procedures and some applications. Proc. Nat. Acad. Sci. USA 76, 4350-4354.[Abstract/Free Full Text]

von Heijne, G (1986). A new method for predicting signal sequence cleavage sites. Nucl. Acids Res 14, 4683-4690.[Abstract/Free Full Text]

Wharton, K. A., Johansen, K. M., Xu, T. and Artavanis-Tsakonas, S (1985). Nucleotide sequence from the neurogenic locus Notch implies a gene product that shares homology with proteins containing EGF-like repeats. Cell 43, 567-581.[Medline]

Wigler, M., Pellicer, A., Silverstein, S., Axel, R., Urlaub, G. and Chasin, L (1979). DNA-mediated transfer of the adenine phosporybosyltransferase locus into mammalian cells. Proc. Natl Acad. Sci. USA 78, 1373-1376.

Yamawaki-Kataoka, Y., Tamaoki, T., Choe, H. R., Tanaka, H. and Kataoka, T (1989). Adenylate cyclases in yeast: a comparison of the genes from Schizosaccharomyces pombe and Saccharomyces cerevisiae. Proc. Nat. Acad. Sci. USA 86, 5693-5697.[Abstract/Free Full Text]

Zinn, K., McAllister, L. and Goodman, C. S (1988). Sequence analysis and neuronal expression of fasciclin I in grasshopper and Drosophila. Cell 53, 577-587.[Medline]

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				A. Poltorak, X. He, I. Smirnova, M. Liu, C. V. Huffel, X. Du, D. Birdwell, E. Alejos, M. Silva, C. Galanos, et al. Defective LPS Signaling in C3H/HeJ and C57BL/10ScCr Mice: Mutations in Tlr4 Gene Science, December 11, 1998; 282(5396): 2085 - 2088. [Abstract] [Full Text]

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				F. L. Rock, G. Hardiman, J. C. Timans, R. A. Kastelein, and J. F. Bazan A family of human receptors structurally related to Drosophila�Toll PNAS, January 20, 1998; 95(2): 588 - 593. [Abstract] [Full Text] [PDF]

				B Shen and J. Manley Phosphorylation modulates direct interactions between the Toll receptor, Pelle kinase and Tube Development, January 12, 1998; 125(23): 4719 - 4728. [Abstract] [PDF]

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				J. L. Mitcham, P. Parnet, T. P. Bonnert, K. E. Garka, M. J. Gerhart, J. L. Slack, M. A. Gayle, S. K. Dower, and J. E. Sims T1/ST2 Signaling Establishes It as a Member of an Expanding Interleukin-1 Receptor Family J. Biol. Chem., March 8, 1996; 271(10): 5777 - 5783. [Abstract] [Full Text] [PDF]

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