Argos and Spitz group genes function to regulate midline glial cell number in Drosophila embryos

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Allendoerfer, K. and Shatz, C (1994). The subplate, a transient neocortical structure: its role in the development of connections between thalamus and cortex. Ann. Rev. Neurosci 17, 185-218.[Medline]

Baker, N. E. and Rubin, G. M (1989). Effect on eye development of dominant mutations in the Drosophila homologue of the EGF receptor. Nature 340, 150-153.[Medline]

Bier, E., Jan, L. and Jan, Y (1990). rhomboid , a gene required for dorsoventral axis establishment and peripheral nervous system development in Drosophila. Genes Dev 4, 190-203.[Abstract/Free Full Text]

Brand, A. H. and Perrimon, N (1994). Raf acts downstream of the EGF receprot to determine dorsoventral polarity during Drosophila oogenesis. Genes Dev 8, 629-639.[Abstract/Free Full Text]

Cox, R. T., Kirkpatrick, C. and Peifer, M (1996). Armadillo is required for adherens junction assembly, cell polarity, and morphogenesis during Drosophila embryogenesis. J. Cell Biol 134, 133-148.[Abstract/Free Full Text]

Fagotto, F. and Gumbiner, B. M (1996). Cell contact-dependent signaling. Dev. Biol 180, 445-454.[Medline]

Fehon, R. G., Dawson, I. A. and Artavanis-Tsakonas, S (1994). A Drosophila homologue of membrane-skeleton protein 4.1 is associated with septate junctions and is encoded by the coracle gene. Development 120, 545-557.[Abstract]

Freeman, M (1994). Misexpression of the Drosophila argos gene, a secreted regulator of cell determination. Development 120, 2297-2304.[Abstract]

Freeman, M (1994). The spitz gene is required for photoreceptor determination in the Drosophila eye where it interacts with EGF receptor. Mech. Dev 48, 25-33.[Medline]

Freeman, M (1996). Reiterative use of the EGF receptor triggers differentiation of all cell types in the Drosophila eye. Cell 87, 651-660.[Medline]

Freeman, M (1997). Cell determination strategies in the Drosophila eye. Development 124, 261-270.[Abstract]

Freeman, M., Kl\212mbt, C., Goodman, C. S. and Rubin, G. M (1992). The argos gene encodes a diffusable factor that regulates cell fate in the Drosophila eye. Cell 69, 963-975.[Medline]

Golembo, M., Raz, E. and Shilo, B.-Z (1996). The Drosophila embryonic midline is the site of Spitz processing and induces activation of the EGF receptor in the ventral ectoderm. Development 122, 3363-3370.[Abstract]

Golembo, M., Schweitzer, R., Freeman, M. and Shilo, B.-Z (1996). argos transcription is induced by the Drosophila EGF receptor pathway to form an inhibitory feedback loop. Development 122, 223-230.[Abstract]

Hankin, M. H., Schneider, B. F. and Silver, J (1988). Death of the subcallosal glial sling is correlated with formation of the cavum septi pellucidi. J. Comp. Neurol 272, 191-202.[Medline]

Harris, R., Sabatellu, L. M. and Seeger, M. A (1996). Guidance cues at the Drosophila CNS midline: identification and characterisation of two Drosophila Netrin/UNC-6 homologs. Neuron 17, 217-228.[Medline]

Hoschuetzky, H., Aberle, H. and Kemler, R (1994). Beta-catenin mediates the interaction of the cadherin-catenin complex with epidermal growth factor receptor. J. Cell Biol 127, 1375-1380.[Abstract/Free Full Text]

Hoskins, R., Hanjal, A. F., Harp, S. A. and Kim, S. K (1996). The C. elegans vulval induction gene lin-2 encodes a member of the MAGUK family of cell junction proteins. Development 122, 97-111.[Abstract]

Jacobs, J. R. and Goodman, C. S (1989). Embryonic development of axon pathways in the Drosophila CNS. I. A glial scaffold appears before the first growth cones. J. Neurosci 9, 2402-11.[Abstract]

Kerkhoff, E. and Ziff, E (1995). Deregulated messenger RNA expression during T cell apoptosis. Nucleic Acids Res 23, 4857-63.[Abstract/Free Full Text]

Kl\212mbt, C. and Goodman, C (1991). Role of the midline glia and neurons in the formation of the axon commissures in the central nervous system of the Drosophila embryo. Ann. NY Acad. Sci 633, 142-59.[Medline]

Kl\212mbt, C., Jacobs, J. R. and Goodman, C. S (1991). The midline of the Drosophila central nervous system: a model for the genetic analysis of cell fate, cell migration, and growth cone guidance. Cell 64, 801-15.[Medline]

Lambie, E. J (1996). Cell-cell communication: receptor function at the junction. Curr. Biol 6, 1089-1091.[Medline]

Mellerick, D. M. and Nirenberg, M (1995). Dorsal-ventral patterning genes restrict NK-2 homeobox gene expression to the ventral half of the central nervous system of Drosophila embryos. Dev. Biol 171, 306-16.[Medline]

Mitchell, K. J., Doyle, J. L., Serafini, T., Kennedy, T. E., Tessier-Lavigne, M., Goodman, C. S. and Dickson, B. J (1996). Genetic analysis of Netrin genes in Drosophila: Netrins guide CNS commissural axons and peripheral motor axons. Neuron 17, 203-215.[Medline]

Nambu, J. R., Franks, R. G., Hu, S. and Crews, S. T (1990). The single-minded gene of Drosophila is required for the expression of genes important for the development of CNS midline cells. Cell 63, 63-75.[Medline]

Oda, H., Uemura, T., Harada, Y., Iwai, Y. and Takeichi, M (1994). A Drosophila homolog of cadherin associated with armadillo and essential for embryonic cell-cell adhesion. Dev. Biol 165, 716-726.[Medline]

Okabe, M., Sawamoto, K. and Okano, H (1996). The function of the Drosophila argos gene product in the development of embryonic chordotonal organs. Dev. Biol 175, 37-49.[Medline]

Patel, N (1994). Imaging neuronal subsets and other cell types in Whole-mount Drosophila embryos and larvae using antibody probes. Meth. Cell Biol 44, 445-505.[Medline]

Rothberg, J. M., Hartley, D. A., Walther, Z. and Artavanis-Tsakonas, S (1988). slit : an EGF-homologous locus of D. melanogaster involved in the development of the embryonic central nervous system. Cell 55, 1047-59.[Medline]

Rothberg, J. M., Jacobs, J. R., Goodman, C. S. and Artavanis-Tsakonas, S (1990). slit: an axtracellular protein necessary for development of midline glia and commissural axon pathways contains both EGF and LRR domains. Genes Dev 4, 2169-87.[Abstract/Free Full Text]

Ruohola-Baker, H., Grell, E., Chou, T.-B., Baker, D., Jan, L. Y. and Jan, Y. N (1993). Spatially localized rhomboid is required for establishment of the dorsal-ventral axis in Drosophila oogenesis. Cell 73, 953-65.[Medline]

Rutledge, B., Zhang, K., Bier, E., Jan, Y. and Perrimon, N (1992). The Drosophila spitz gene encodes a putative EGF-like growth factor involved in dorsal-ventral axis formation and neurogenesis. Genes Dev 6, 1503-17.[Abstract/Free Full Text]

Sawamoto, K., Okano, H., Kobayakawa, Y., Hayashi, S., Mikoshiba, K. and Tanimura, T (1994). the function of argos in regulating cell fate decisions during Drosophila eye and wing vein development. Dev. Biol._Fb_164._Fb_Schepp, B., Grumbling, G., Donaldson, T. and Simcox, A. (1996). Vein is a novel component in the Drosophila EGF receptor pathway with similarity to the neuregulins. Genes Dev 10, 2302-2313.[Abstract/Free Full Text]

Schweitzer, R., Howes, R., Smith, R., Shilo, B.-Z. and Freeman, M (1995). Inhibition of Drosophila EGF receptor activation by the secreted protein Argos. Nature 376, 699-702.[Medline]

Schweitzer, R., Saharabany, M., Seger, R. and Shilo, B. Z (1995). Secreted spitz triggers the DER signaling pathway and is a limiting component in embryonic ventral ectoderm determination. Genes Dev 9, 1519-1529.

Seeger, M., Tear, G., Ferres-Marco, D. and Goodman, C. S (1993). Mutations affecting growth cone guidance in Drosophila : Genes necessary for guidance toward or away from the midline. Neuron 10, 409-426.[Medline]

Silver, J., Lorenz, S., Wahlstein, D. and Coughlin, J (1982). Axonal guidance during development of the great cerebral commissures: Descriptive and experimental studies in vivo on the role of preformed glial pathways. J. Comp. Neurol 210, 10-29.[Medline]

Simske, J. S., Kaech, S. M., Harp, S. A. and Kim, S. K (1996). LET-23 receptor localisation by the cell junction protein LIN-7 during C. elegans vulval induction. Cell 856, 195-204.

Singer, M., Nordlander, R. H. and Egar, M (1979). Axonal guidance during embryogenesis and regeneration in the spinal cord of the newt. The blueprint hypothesis of neuronal pathway patterning. J. Comp. Neurol 185, 1-22.[Medline]

Sonnenfeld, M. J. and Jacobs, J. R (1994). Mesectodermal cell fate analysis in Drosophila midline mutants. Mech. Dev 46, 3-13.[Medline]

Sonnenfeld, M. J. and Jacobs, J. R (1995). Apoptosis of the midline glia during Drosophila embryogenesis: a correlation with axon contact. Development 121, 569-578.[Abstract]

Sturtevant, M. A., Roark, M. and Bier, E (1993). The Drosophila rhomboid gene mediates the localised formation of wing veins and interacts genetically with components of the EGF-R signaling pathway. Genes Dev 7, 961-973.[Abstract/Free Full Text]

Sturtevant, M. A., O'Neill, J. W. and Bier, E (1994). Down-regulation of Drosophila Egf-r mRNA levels following hyperactivated receptor signaling. Development 120, 2593-2600.[Abstract/Free Full Text]

Sturtevant, M. A., Roark, M., O'Neill, J. W., Biehs, B., Colley, N. and Bier, E (1996). The Drosophila Rhomboid protein is concentrated in patches at the apical cell surface. Dev. Biol 174, 298-309.[Medline]

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

Tear, G., Harris, R., Sutaria, S., Kilomanski, K., Goodman, C. S. and Seeger, M. A (1996). Commissureless controls growth cone guidance across the CNS midline in Drosophila and encodes a novel membrane protein. Neuron 16, 501-514.[Medline]

Wharton, K. A. J. and Crews, S. T (1993). CNS midline enhancers of the Drosophilaslit and Toll genes. Mech. Dev 40, 141-154.[Medline]

Yeh, E., Gustafson, K. and Boulianne, G. L (1995). Green fluorescent protein as a vital marker and reporter of gene expression in Drosophila. Proc. Nat. Acad. Sci. USA 92, 7036-7040.[Abstract/Free Full Text]

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Articles by Stemerdink, C.

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Articles by Stemerdink, C.

Articles by Jacobs, J. R.

				T. Shandala, K. Takizawa, and R. Saint The dead ringer/retained transcriptional regulatory gene is required for positioning of the longitudinal glia in the Drosophila embryonic CNS Development, April 15, 2003; 130(8): 1505 - 1513. [Abstract] [Full Text] [PDF]

				C. Peterson, G. E. Carney, B. J. Taylor, and K. White reaper is required for neuroblast apoptosis during Drosophila development Development, March 5, 2003; 129(6): 1467 - 1476. [Abstract] [Full Text] [PDF]

				F. Besse and A.-M. Pret Apoptosis-mediated cell death within the ovarian polar cell lineage of Drosophila melanogaster Development, March 1, 2003; 130(5): 1017 - 1027. [Abstract] [Full Text] [PDF]

				M. Pribyl, C. B. Muratov, and S. Y. Shvartsman Long-Range Signal Transmission in Autocrine Relays Biophys. J., February 1, 2003; 84(2): 883 - 896. [Abstract] [Full Text] [PDF]

				A. G. Bang and C. Kintner Rhomboid and Star facilitate presentation and processing of the Drosophila TGF-alpha homolog Spitz Genes & Dev., January 15, 2000; 14(2): 177 - 186. [Abstract] [Full Text]

				T Hummel, K Schimmelpfeng, and C Klambt Commissure formation in the embryonic CNS of Drosophila Development, January 2, 1999; 126(4): 771 - 779. [Abstract] [PDF]