Goosecoid acts cell autonomously in mesenchyme-derived tissues during craniofacial development

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Artinger, M., Blitz, I., Inoue, K., Tran, U. and Cho, K.W (1997). Interaction of Goosecoid and Brachyury in Xenopus mesoderm patterning. Mech. Dev 65, 187-196.[Medline]

Atchley, W. and Hall, B. K (1991). A model for development and evolution of complex morphological structures. Biol. Rev 66, 101-157.[Medline]

Beddington, R. S. and Robertson, E. J (1989). An assessment of the developmental potential of embryonic stem cells in the midgestation mouse embryo. Development 105, 733-737.[Abstract/Free Full Text]

Blum, M., Gaunt, S. J., Cho, K. W. Y., Steinbeisser, H., Blumberg, B., Bittner, D. A. and De Robertis, E. M (1992). Gastrulation in the mouse: The role of the homeobox gene Goosecoid. Cell 69, 1097-1106.[Medline]

Blum, M., De Robertis, E. M., Kojis, T., Heinzmann, C., Klisak, I., Geissert, D. and Sparkes, R. S (1994). Molecular cloning of the human homeobox gene Goosecoid ( GSC ) and mapping of the gene to human chromosome 14q32.1. Genomics 21, 388-393.[Medline]

Blumberg, B., Wright, C. V. E., De Robertis, E. M. and Cho, K. W. Y (1991). Organizer-specific homeobox genes in Xenopus laevis embryos. Science 253, 194-196.[Abstract/Free Full Text]

Chen, Z.-F. and Behringer, R. R (1995). Twist is required in head mesenchyme for cranial neural tube morphogenesis. Genes & Dev 9, 686-699.[Abstract/Free Full Text]

Cho, K. W. Y., Blumberg, B., Steinbesser, H. and De Robertis, E. M (1991). Molecular nature of Spemann's organizer: the role of the Xenopus homeobox gene Goosecoid. Cell 67, 1111-1120.[Medline]

Ciruna, B. G., Schwartz, L., Harpal, K., Yamaguchi, T. P. and Rossant, J (1997). Chimeric analysis of fibroblast growth factor receptor-1 (Fgfr1) function: a role for FGFR1 in morphogenetic movement through the primitive streak. Development 124, 2829-2841.[Abstract]

Danilov, V., Blum, M., Schweickert, A., Campione, M. and Steinbeisser, H (1998). Negative autoregulation of the organizer-specific homeobox gene goosecoid. J. Biol. Chem 273, 627-635.[Abstract/Free Full Text]

Deng, C., Bedford, M., Li, C., Xu, X., Yang, X., Dunmore, J. and Leder, P (1997). Fibroblast growth factor receptor-1 (FGFR-1) is essential for normal neural tube and limb development. Dev. Biol 185, 42-54.[Medline]

Dymecki, S. M (1996). Flp recombinase promotes site-specific DNA recombination in embryonic stem cells and transgenic mice. Proc. Natl. Acad. Sci. USA 93, 6191-6196.[Abstract/Free Full Text]

Ferreiro, B., Artinger, M., Cho, K. and Niehrs, C (1998). Antimorphic goosecoids. Development 125, 1347-1359.[Abstract]

Francis-West, P., Ladher, R., Barlow, A. and Graveson, A (1998). Signaling interactions during facial development. Mech. Dev 75, 3-28.[Medline]

Friedrich, G. and Soriano, P (1991). Promoter traps in embryonic stem cells: a genetic screen to identify and mutate developmental genes in mice. Genes Dev 5, 1513-1523.[Abstract/Free Full Text]

Gans, C. and Northcutt, R. G (1983). Neural crest and the origin of vertebrates: a new head. Science 220, 268-274.[Abstract/Free Full Text]

Gaunt, S. J., Blum, M. and De Robertis, E. M (1993). Expression of the mouse Goosecoid gene during mid-embryogenesis may mark mesenchymal cell lineages in the developing head, limbs and body wall. Development 117, 769-778.[Abstract]

Gendron-Maguire, M., Mallo, M., Zhang, M. and Gridley, T (1993). Hoxa-2 mutant mice exhibit homeotic transformation of skeletal elements derived from cranial neural crest. Cell 75, 1317-1331.[Medline]

Goriely, A., Stella, M., Coffinier, C., Kessler, D., Mailhos, C., Dessain, S. and Desplan, C (1996). A functional homologue of Goosecoid in Drosophila. Development 122, 1641-1650.[Abstract]

Gruneberg, F. R. S. and McLaren, A (1972). The skeletal phenotype of some mouse chimeras. Proc. R. Soc. Lond 182, 9-23.

Gruneberg, H. and Wickramaratne, G. A (1974). A re-examination of two skeletal mutants of the mouse, vestigial-tail ( vt ) and congenital hydrocephalus ( ch ). J. Embryol. Exp. Morphol 31, 207-222.[Medline]

Hahn, M. and J\212ckle, H (1996). DrosophilaGoosecoid participates in neural development but not in body axis formation. EMBO J 15, 3077-3084.[Medline]

Hall, B. K. and Miyake, T (1992). The membranous skeleton: the role of cell condensations in vertebrate skeletogenesis. Anat. Embryol 186, 107-124.[Medline]

Heanue, T. A., Johnson, R. L., Izpisua-Belmonte, J. C., Stern, C. D., De Robertis, E. M. and Tabin, C. J (1997). Goosecoid misexpression alters the morphology and Hox gene expression of the developing chick limb bud. Mech. Dev 69, 31-37.[Medline]

Hill, R. E., Favor, J., Hogan, B. L. M., Ton, C. C. T., Saunders, G. F., Hanson, I. M., Prosser, J., Jordan, T., Hastie, N. D. and van Heyningen, V (1991). Mouse Small eye results from mutations in a Paired -like homeobox-containing gene. Nature 354, 522-525.[Medline]

Izpis\234a-Belmonte, J. C., De Robertis, E. M., Storey, K. G. and Stern, C. D (1993). The homeobox gene Goosecoid and the origin of organizer cells in the early chick blastoderm. Cell 74, 645-659.[Medline]

Kelly, S. J (1977). Studies of the developmental potential of 4-and 8-cell stage mouse blastomeres. J. Exp. Zool 200, 365-376.[Medline]

Kingsley, D. M., Bland, A. E., Gruber, J. M., Russell, L. B., Copeland, N. G. and Jenkins, N. A (1992). The mouse shortear skeletal morphogenesis locus is associated with defects in a bone morphogenetic member of the TGFbeta superfamily. Cell 71, 399-410.[Medline]

Kochhar, D. M (1973). Limb development in mouse embryos. I. Analysis of teratogenic effects of retinoic acid. Teratology 7, 289-298.

Liu, X., Wu, H., Loring, J., Hormuzdi, S., Disteche, C. M., Bornstein, P. and Jaenisch, R (1997). Trisomy eight in ES cells is a common potential problem in gene targeting and interferes with germ line transmission. Dev. Dyn 209, 85-91.[Medline]

Mallo, M. and Gridley, T (1996). Development of the mammalian ear: coordinate regulation of formation of the tympanic ring and the external acoustic meatus. Development 122, 173-179.[Abstract]

Martin, J. F., Bradley, A. and Olson, E. N (1995). The Paired -like homeo box gene MHox is required for early events of skeletogenesis in multiple lineages. Genes & Dev 9, 1237-1249.[Abstract/Free Full Text]

Mintz, B (1962). Formation of genetically mosaic mouse embryos. Amer. Zool 2, 432-.

Moore, W. J. and Mintz, B (1972). Clonal model of vertebral column and skull development derived from genetically mosaic skeletons in allophenic mice. Dev. Biol 27, 55-70.[Medline]

Niehrs, C., Keller, R., Cho, K. W. Y. and De Robertis, E. M (1993). The homeobox gene Goosecoid controls cell migration in Xenopus embryos. Cell 72, 491-503.[Medline]

Quinn, J. C., West, J. D. and Hill, R. E (1996). Multiple functions for Pax6 in mouse eye and nasal development. Genes Dev 10, 435-446.[Abstract/Free Full Text]

Rashbass, P., Cooke, L. A., Herrmann, B. G. and Beddington, R. S (1991). A cell autonomous function of Brachyury in T / T embryonic stem cell chimaeras. Nature 353, 348-351.[Medline]

Rijli, F. M., Mark, M., Lakkaraju, S., Dierich, A., Dolle, P. and Chambon, P (1993). A homeotic transformation is generated in the rostral branchial region of the head by disruption of Hoxa-2 , which acts as a selector gene. Cell 75, 1333-1349.[Medline]

Rivera-Perez, J. A., Mallo, M., Gendron-Maguire, M., Gridley, T. and Behringer, R. R (1995). Goosecoid is not an essential component of the mouse gastrula organizer but is required for craniofacial and rib development. Development 121, 3005-3012.[Abstract]

Satokata, I. and Maas, R (1994). Msx1 deficient mice exhibit cleft palate and abnormalities of craniofacial and tooth development. Nature Genet 6, 348-355.[Medline]

Schwenk, F., Baron, U. and Rajewsky, K (1995). A cre-transgenic mouse strain for the ubiquitous deletion of loxP-flanked gene segments including deletion in germ cells. Nucleic Acids Res 23, 5080-5081.[Free Full Text]

Schulte-Merker, S., Hammerschmidt, M., Beuchle, D., Cho, K. W. Y., De Robertis, E. M. and Nusslein-Volhard, C (1994). Expression of zebrafish Goosecoid and no tail gene products in wild-type and mutant no tail embryos. Development 120, 843-852.[Abstract]

Smith, K. K. and Schneider, R. A (1998). Have gene knokouts caused evolutionary reversals in the mammalian first arch?. Bioessays 20, 245-255.[Medline]

Stachel, S. E., Grunwald, D. J. and Myers, P (1993). Lithium perturbation and Goosecoid expression identify a dorsal specification pathway in the pregastrula zebrafish. Development 117, 1261-1274.[Abstract]

Tarkowski, A. K (1961). Mouse chimaeras developed from fused eggs. Nature 190, 857-860.[Medline]

te Riele, H., Maandag, E. R., Clarke, A., Hooper, M. and Berns, A (1990). Consecutive inactivation of both alleles of the pim-1 proto-oncogene by homologous recombination in embryonic stem cells. Nature 348, 649-651.[Medline]

Weitzer, G., Milner, D. J., Kim, J. U., Bradley, A. and Capetanaki, Y (1995). Cytoskeletal control of myogenesis: a desmin null mutation blocks the myogenic pathway during embryonic stem cell differentiation. Dev. Biol 172, 422-439.[Medline]

Wilson, V., Manson, L., Skarnes, W. C. and Beddington, R. S (1995). The T gene is necessary for normal mesodermal morphogenetic cell movements during gastrulation. Development 121, 877-886.[Abstract]

Wood, S. A., Allen, N. D., Rossant, J., Auerbach, A. and Nagy, A (1993). Non-injection methods for the production of embryonic stem cell-embryo chimaeras. Nature 365, 87-89.[Medline]

Yamada, G., Mansouri, A., Torres, M., Stuart, E. T., Blum, M., Schultz, M., De Robertis, E. M. and Gruss, P (1995). Targeted mutation of the murine Goosecoid gene results in craniofacial defects and neonatal death. Development 121, 2917-2922.[Abstract]

Zambrowicz, B. P., Imamoto, A., Fiering, S., Herzenberg, L. A., Kerr, W. G. and Soriano, P (1997). Disruption of overlapping transcripts in the ROSAgeo26 gene trap strain leads to widespread expression of -galactosidase in mouse embryos and hematopoietic cells. Proc. Natl. Acad. Sci. USA 94, 3789-3794.[Abstract/Free Full Text]

Zhu, C. C., Yamada, G., Nakamura, S., Terashi, T., Schweickert, A. and Blum, M (1998). Malformation of trachea and pelvic region in Goosecoid mutant mice. Dev. Dyn 211, 374-381.[Medline]

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