split ends encodes large nuclear proteins that regulate neuronal cell fate and axon extension in the Drosophila embryo

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Altschul, S. F., Gish, W., Miller, W., Myers, E. W. and Lipman, D. J (1990). Basic local alignment search tool. J. Mol. Biol 215, 403-410.[Medline]

Artavanis-Tsakonas, S., Rand, M. D. and Lake, R. J (1999). Notch signaling: cell fate control and signal integration in development. Science 284, 770-776.[Abstract/Free Full Text]

Bailey, A. M. and Posakony, J. W (1995). Suppressor of hairless directly activates transcription of enhancer of split complex genes in response to Notch receptor activity. Genes Dev 9, 2609-2622.[Abstract/Free Full Text]

Bertolotti, A., Lutz, Y., Heard, D. J., Chambon, P. and Tora, L (1996). hTAF(II)68, a novel RNA/ssDNA-binding protein with homology to the pro-oncoproteins TLS/FUS and EWS is associated with both TFIID and RNA polymerase II. EMBO J 15, 5022-5031.[Medline]

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

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

Burd, C. G. and Dreyfuss, G (1994). Conserved structures and diversity of RNA-binding proteins. Science 265, 615-621.[Abstract/Free Full Text]

Campos-Ortega, J. A (1995). Genetic mechanisms of early neurogenesis in Drosophila melanogaster. Mol. Neurobiol 10, 75-89.[Medline]

Chou, T. B. and Perrimon, N (1996). The autosomal FLP-DFS technique for generating germline mosaics in Drosophila melanogaster. Genetics 144, 1673-1679.[Abstract]

DeAngelo, D. J., DeFalco, J., Rybacki, L. and Childs, G (1995). The embryonic enhancer-binding protein SSAP contains a novel DNA-binding domain which has homology to several RNA-binding proteins. Mol. Cell Biol 15, 1254-1264.[Abstract]

Dickson, B. J., van der Straten, A., Dominguez, M. and Hafen, E (1996). Mutations modulating Raf signaling in Drosophila eye development. Genetics 142, 163-171.[Abstract]

Doe, C. Q., Hiromi, Y., Gehring, W. J. and Goodman, C. S (1988). Expression and function of the segmentation gene fushi tarazu during Drosophila neurogenesis. Science 239, 170-175.[Abstract/Free Full Text]

Doe, C. Q., Smouse, D. and Goodman, C. S (1988). Control of neuronal fate by the Drosophila segmentation gene even-skipped. Nature 333, 376-378.[Medline]

Florence, B. and McGinnis, W (1998). A genetic screen of the Drosophila X chromosome for mutations that modify Deformed function. Genetics 150, 1497-1511.[Abstract/Free Full Text]

Fortini, M. E. and Artavanis-Tsakonas, S (1994). The suppressor of hairless protein participates in notch receptor signaling. Cell 79, 273-282.[Medline]

Fujita, S. C., Zipursky, S. L., Benzer, S., Ferrus, A. and Shotwell, S. L (1982). Monoclonal antibodies against the Drosophila nervous system. Proc. Natl. Acad. Sci. USA 79, 7929-7933.[Abstract/Free Full Text]

Gabay, L., Scholz, H., Golembo, M., Klaes, A., Shilo, B. Z. and Klambt, C (1996). EGF receptor signaling induces pointed P1 transcription and inactivates Yan protein in the Drosophila embryonic ventral ectoderm. Development 122, 3355-3362.[Abstract]

Gabay, L., Seger, R. and Shilo, B. Z (1997). In situ activation pattern of Drosophila EGF receptor pathway during development. Science 277, 1103-1106.[Abstract/Free Full Text]

Gao, F. B. and Keene, J. D (1996). Hel-N1/Hel-N2 proteins are bound to poly(A)+ mRNA in granular RNP structures and are implicated in neuronal differentiation. J. Cell Sci 109, 579-589.[Abstract/Free Full Text]

Gellon, G., Harding, K. W., McGinnis, N., Martin, M. M. and McGinnis, W (1997). A genetic screen for modifiers of Deformed homeotic function identifies novel genes required for head development. Development 124, 3321-3331.[Abstract]

Giniger, E (1998). A role for Abl in Notch signaling. Neuron 20, 667-681.[Medline]

Giniger, E., Jan, L. Y. and Jan, Y. N (1993). Specifying the path of the intersegmental nerve of the Drosophila embryo: a role for Delta and Notch. Development 117, 431-440.[Abstract]

Gould, A. P. and White, R. A (1992). Connectin, a target of homeotic gene control in Drosophila. Development 116, 1163-1174.[Abstract]

Hartenstein, A. Y., Rugendorff, A., Tepass, U. and Hartenstein, V (1992). The function of the neurogenic genes during epithelial development in the Drosophila embryo. Development 116, 1203-1220.[Abstract]

Jan, Y. N. and Jan, L. Y (1994). Genetic control of cell fate specification in Drosophila peripheral nervous system. Annu. Rev. Genet 28, 373-393.[Medline]

Jarman, A. P., Grau, Y., Jan, L. Y. and Jan, Y. N (1993). atonal is a proneural gene that directs chordotonal organ formation in the Drosophila peripheral nervous system. Cell 73, 1307-1321.[Medline]

Jarman, A. P., Sun, Y., Jan, L. Y. and Jan, Y. N (1995). Role of the proneural gene, atonal , in formation of Drosophila chordotonal organs and photoreceptors. Development 121, 2019-2030.[Abstract]

Kolodziej, P. A., Jan, L. Y. and Jan, Y. N (1995). Mutations that affect the length, fasciculation, or ventral orientation of specific sensory axons in the Drosophila embryo. Neuron 15, 273-286.[Medline]

Lage, P., Jan, Y. N. and Jarman, A. P (1997). Requirement for EGF receptor signalling in neural recruitment during formation of Drosophila chordotonal sense organ clusters. Curr. Biol 7, 166-175.[Medline]

Lai, Z. C. and Rubin, G. M (1992). Negative control of photoreceptor development in Drosophila by the product of the yan gene, an ETS domain protein. Cell 70, 609-620.[Medline]

Landgraf, M., Bossing, T., Technau, G. M. and Bate, M (1997). The origin, location, and projections of the embryonic abdominal motorneurons of Drosophila. J. Neurosci 17, 9642-9655.[Abstract/Free Full Text]

Landgraf, M., Roy, S., Prokop, A., VijayRaghavan, K. and Bate, M (1999). even-skipped determines the dorsal growth of motor axons in Drosophila. Neuron 22, 43-52.[Medline]

Lecourtois, M. and Schweisguth, F (1995). The neurogenic suppressor of hairless DNA-binding protein mediates the transcriptional activation of the enhancer of split complex genes triggered by Notch signaling. Genes Dev 9, 2598-2608.[Abstract/Free Full Text]

Lee, S., Harris, K. W., Whitington, P. and Kolodziej, P. A (2000). short stop is allelic to kakapo , and encodes a family of rodlike cytoskeletal associated proteins required for axon growth. J. Neurosci 20, 1096-1108.[Abstract/Free Full Text]

Martin-Bermudo, M. D., Carmena, A. and Jimenez, F (1995). Neurogenic genes control gene expression at the transcriptional level in early neurogenesis and in mesectoderm specification. Development 121, 219-224.[Abstract]

Menne, T. V. and Klambt, C (1994). The formation of commissures in the Drosophila CNS depends on the midline cells and on the Notch gene. Development 120, 123-133.[Abstract]

Mitchison, T. J. and Sedat, J (1983). Localization of antigenic determinants in whole Drosophila embryos. Dev. Biol 99, 261-264.[Medline]

Nambu, J. R., Lewis, J. O., Wharton, K. A., Jr. and Crews, S. T (1991). The Drosophila single-minded gene encodes a helix-loop-helix protein that acts as a master regulator of CNS midline development. Cell 67, 1157-1167.[Medline]

Newberry, E. P., Latifi, T. and Towler, D. A (1999). The RRM domain of MINT, a novel Msx2 binding protein, recognizes and regulates the rat osteocalcin promoter. Biochemistry 38, 10678-10690.[Medline]

O'Neill, E. M., Rebay, I., Tjian, R. and Rubin, G. M (1994). The activities of two Ets-related transcription factors required for Drosophila eye development are modulated by the Ras/MAPK pathway. Cell 78, 137-147.[Medline]

Okabe, M. and Okano, H (1997). Two-step induction of chordotonal organ precursors in Drosophila embryogenesis. Development 124, 1045-1053.[Abstract]

Orita, M., Iwahana, H., Kanazawa, H., Hayashi, K. and Sekiya, T (1989). Detection of polymorphisms of human DNA by gel electrophoresis as single-strand conformation polymorphisms. Proc. Natl. Acad. Sci. USA 86, 2766-2770.[Abstract/Free Full Text]

Patel, N. H., Martin-Blanco, E., Coleman, K. G., Poole, S. J., Ellis, M. C., Kornberg, T. B. and Goodman, C. S (1989). Expression of engrailed proteins in arthropods, annelids, and chordates. Cell 58, 955-968.[Medline]

Rebay, I., Chen, F., Hsiao, F., Kolodziej, P. A., Kuang, B., Laverty, T., Suh, C., Voas, M., Williams, A. and Rubin, G (2000). A genetic screen for novel components of the Ras/MAPK signaling pathway that interact with the yan gene of Drosophila identifies split ends, a new RRM motif containing protein. Genetics 154, 695-712.[Abstract/Free Full Text]

Rebay, I. and Rubin, G. M (1995). Yan functions as a general inhibitor of differentiation and is negatively regulated by activation of the Ras1/MAPK pathway. Cell 81, 857-866.[Medline]

Robertson, H. M., Preston, C. R., Phillis, R. W., Johnson-Schlitz, D. M., Benz, W. K. and Engels, W. R (1988). A stable genomic source of P element transposase in Drosophila melanogaster. Genetics 118, 461-470.[Abstract/Free Full Text]

Robinow, S. and White, K (1991). Characterization and spatial distribution of the ELAV protein during Drosophila melanogaster development. J. Neurobiol 22, 443-461.[Medline]

Rogge, R., Green, P. J., Urano, J., Horn-Saban, S., Mlodzik, M., Shilo, B. Z., Hartenstein, V. and Banerjee, U (1995). The role of yan in mediating the choice between cell division and differentiation. Development 121, 3947-3958.[Abstract]

Rutledge, B. J., Zhang, K., Bier, E., Jan, Y. N. 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]

Scholz, H., Sadlowski, E., Klaes, A. and Klambt, C (1997). Control of midline glia development in the embryonic Drosophila CNS. Mech. Dev 64, 137-151.[Medline]

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]

Sestan, N., Artavanis-Tsakonas, S. and Rakic, P (1999). Contact-Dependent Inhibition of Cortical Neurite Growth Mediated by Notch Signaling. Science 286, 741-746.[Abstract/Free Full Text]

Siegler, M. V. and Jia, X. X (1999). Engrailed negatively regulates the expression of cell adhesion molecules connectin and neuroglian in embryonic Drosophila nervous system. Neuron 22, 265-276.[Medline]

Sink, H. and Whitington, P. M (1991). Location and connectivity ofabdominal motoneurons in the embryo and larva of Drosophila melanogaster. J. Neurobiol 22, 298-311.[Medline]

Skeath, J. B. and Doe, C. Q (1996). The achaete-scute complex proneural genes contribute to neural precursor specification in the Drosophila CNS. Curr. Biol 6, 1146-1152.[Medline]

Staehling-Hampton, K., Ciampa, P. J., Brook, A. and Dyson, N (1999). A genetic screen for modifiers of E2F in Drosophila melanogaster. Genetics 153, 275-287.[Abstract/Free Full Text]

Sun, Y., Jan, L. Y. and Jan, Y. N (1998). Transcriptional regulation of atonal during development of the Drosophila peripheral nervous system. Development 125, 3731-3740.[Abstract]

Tessier-Lavigne, M. and Goodman, C. S (1996). The molecular biology of axon guidance. Science 274, 1123-1133.[Abstract/Free Full Text]

Thomas, J. B., Crews, S. T. and Goodman, C. S (1988). Molecular genetics of the single-minded locus: a gene involved in the development of the Drosophila nervous system. Cell 52, 133-141.[Medline]

Van Vactor, D. V., Sink, H., Fambrough, D., Tsoo, R. and Goodman, C. S (1993). Genes that control neuromuscular specificity in Drosophila. Cell 73, 1137-1153.[Medline]

Wiellette, E. L., Harding, K. W., Mace, K. A., Ronshaugen, M. R., Wang, F. Y. and McGinnis, W (1999). Spen encodes an RNP motif protein that interacts with Hox pathways to repress the development of head sclerites in the Drosophila trunk. Development 126, 5373-5385.[Abstract]

Xiong, W. C., Okano, H., Patel, N. H., Blendy, J. A. and Montell, C (1994). repo encodes a glial-specific homeo domain protein required in the Drosophila nervous system. Genes Dev 8, 981-994.[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]

zur Lage, P. and Jarman, A. P (1999). Antagonism of EGFR and notch signalling in the reiterative recruitment of Drosophila adult chordotonal sense organ precursors. Development 126, 3149-3157.[Abstract]

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				E. Hiriart, H. Gruffat, M. Buisson, I. Mikaelian, S. Keppler, P. Meresse, T. Mercher, O. A. Bernard, A. Sergeant, and E. Manet Interaction of the Epstein-Barr Virus mRNA Export Factor EB2 with Human Spen Proteins SHARP, OTT1, and a Novel Member of the Family, OTT3, Links Spen Proteins with Splicing Regulation and mRNA Export J. Biol. Chem., November 4, 2005; 280(44): 36935 - 36945. [Abstract] [Full Text] [PDF]

				X. Yang, J. Li, H. Qin, H. Yang, J. Li, P. Zhou, Y. Liang, and H. Han Mint Represses Transactivation of the Type II Collagen Gene Enhancer through Interaction with {alpha}A-crystallin-binding Protein 1 J. Biol. Chem., May 13, 2005; 280(19): 18710 - 18716. [Abstract] [Full Text] [PDF]

				S. J. Macdonald and A. D. Long Prospects for identifying functional variation across the genome PNAS, May 3, 2005; 102(suppl_1): 6614 - 6621. [Abstract] [Full Text] [PDF]

				A. H. Ludewig, C. Kober-Eisermann, C. Weitzel, A. Bethke, K. Neubert, B. Gerisch, H. Hutter, and A. Antebi A novel nuclear receptor/coregulator complex controls C. elegans lipid metabolism, larval development, and aging Genes & Dev., September 1, 2004; 18(17): 2120 - 2133. [Abstract] [Full Text] [PDF]

				B. Fuss, F. Josten, M. Feix, and M. Hoch Cell movements controlled by the Notch signalling cascade during foregut development in Drosophila Development, April 1, 2004; 131(7): 1587 - 1595. [Abstract] [Full Text] [PDF]

				B. Cen, A. Selvaraj, R. C. Burgess, J. K. Hitzler, Z. Ma, S. W. Morris, and R. Prywes Megakaryoblastic Leukemia 1, a Potent Transcriptional Coactivator for Serum Response Factor (SRF), Is Required for Serum Induction of SRF Target Genes Mol. Cell. Biol., September 15, 2003; 23(18): 6597 - 6608. [Abstract] [Full Text] [PDF]

				M. Ariyoshi and J. W.R. Schwabe A conserved structural motif reveals the essential transcriptional repression function of Spen proteins and their role in developmental signaling Genes & Dev., August 1, 2003; 17(15): 1909 - 1920. [Abstract] [Full Text] [PDF]

				H. V. Lin, D. B. Doroquez, S. Cho, F. Chen, I. Rebay, and K. M. Cadigan Splits ends is a tissue/promoter specific regulator of Wingless signaling Development, July 15, 2003; 130(14): 3125 - 3135. [Abstract] [Full Text] [PDF]

				R. K. Smith, P. M. Carroll, J. D. Allard, and M. A. Simon MASK, a large ankyrin repeat and KH domain-containing protein involved in Drosophila receptor tyrosine kinase signaling Development, January 1, 2002; 129(1): 71 - 82. [Abstract] [Full Text] [PDF]

				T. Mercher, M. B.-L. Coniat, R. Monni, M. Mauchauffe, F. N. Khac, L. Gressin, F. Mugneret, T. Leblanc, N. Dastugue, R. Berger, et al. Involvement of a human gene related to the Drosophila spen gene in the recurrent t(1;22) translocation of acute megakaryocytic leukemia PNAS, May 8, 2001; 98(10): 5776 - 5779. [Abstract] [Full Text] [PDF]

				M. E. Lane, M. Elend, D. Heidmann, A. Herr, S. Marzodko, A. Herzig, and C. F. Lehner A Screen for Modifiers of Cyclin E Function in Drosophila melanogaster Identifies Cdk2 Mutations, Revealing the Insignificance of Putative Phosphorylation Sites in Cdk2 Genetics, May 1, 2000; 155(1): 233 - 244. [Abstract] [Full Text]