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Development, Vol 115, Issue 2 573-585, Copyright © 1992 by Company of Biologists
JOURNAL ARTICLES |
L Dale, G Howes, BM Price and JC Smith
School of Biochemistry, University of Birmingham, UK.
The mesoderm of amphibian embryos such as Xenopus laevis arises through an inductive interaction in which cells of the vegetal hemisphere of the embryo act on overlying equatorial and animal pole cells. Three classes of 'mesoderm-inducing factor' (MIF) that might be responsible for this interaction in vivo have been discovered. These are members of the transforming growth factor type beta (TGF-beta), fibroblast growth factor (FGF) and Wnt families. Among the most potent MIFs are the activins, members of the TGF-beta family, but RNA for activin A and B is not detectable in the Xenopus embryo until neurula and late blastula stages, respectively, and this is probably too late for the molecules to act as natural inducers. In this paper, we use the polymerase chain reaction to clone additional members of the TGF-beta family that might possess mesoderm-inducing activity. We show that transcripts encoding Xenopus bone morphogenetic protein 4 (XBMP-4) are detectable in the unfertilized egg, and that injection of XBMP-4 RNA into the animal hemisphere of Xenopus eggs causes animal caps isolated from the resulting blastulae to express mesoderm-specific markers. Surprisingly, however, XBMP-4 preferentially induces ventral mesoderm, whereas the closely related activin induces axial tissues. Furthermore, the action of XBMP-4 is 'dominant' over that of activin. In this respect, XBMP-4 differs from basic FGF, another ventral inducer, where simultaneous treatment with FGF and activin results in activin-like responses. The dominance of XBMP-4 over activin may account for the ability of injected XBMP-4 RNA to 'ventralize' whole Xenopus embryos. It is interesting, however, that blastopore formation in such embryos can occur perfectly normally. This contrasts with embryos ventralized by UV-irradiation and suggests that XBMP-4-induced ventralization occurs after the onset of gastrulation.
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J. Schmidt, G von Dassow, and D Kimelman Regulation of dorsal-ventral patterning: the ventralizing effects of the novel Xenopus homeobox gene Vox Development, January 6, 1996; 122(6): 1711 - 1721. [Abstract] [PDF]
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C. Sagerstrom, Y Grinbalt, and H Sive Anteroposterior patterning in the zebrafish, Danio rerio: an explant assay reveals inductive and suppressive cell interactions Development, January 6, 1996; 122(6): 1873 - 1883. [Abstract] [PDF]
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C. Jones, L Dale, B. Hogan, C. Wright, and J. Smith Bone morphogenetic protein-4 (BMP-4) acts during gastrula stages to cause ventralization of Xenopus embryos Development, January 5, 1996; 122(5): 1545 - 1554. [Abstract] [PDF]
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Y Mishina, A Suzuki, N Ueno, and R R Behringer Bmpr encodes a type I bone morphogenetic protein receptor that is essential for gastrulation during mouse embryogenesis. Genes & Dev., December 15, 1995; 9(24): 3027 - 3037. [Abstract] [PDF]
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S H Hawley, K Wunnenberg-Stapleton, C Hashimoto, M N Laurent, T Watabe, B W Blumberg, and K W Cho Disruption of BMP signals in embryonic Xenopus ectoderm leads to direct neural induction. Genes & Dev., December 1, 1995; 9(23): 2923 - 2935. [Abstract] [PDF]
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G Luo, C Hofmann, A L Bronckers, M Sohocki, A Bradley, and G Karsenty BMP-7 is an inducer of nephrogenesis, and is also required for eye development and skeletal patterning. Genes & Dev., November 15, 1995; 9(22): 2808 - 2820. [Abstract] [PDF]
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G Winnier, M Blessing, P A Labosky, and B L Hogan Bone morphogenetic protein-4 is required for mesoderm formation and patterning in the mouse. Genes & Dev., September 1, 1995; 9(17): 2105 - 2116. [Abstract] [PDF]
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S. Iwasaki, N. Tsuruoka, A. Hattori, M. Sato, M. Tsujimoto, and M. Kohno Distribution and Characterization of Specific Cellular Binding Proteins for Bone Morphogenetic Protein-2 J. Biol. Chem., March 10, 1995; 270(10): 5476 - 5482. [Abstract] [Full Text] [PDF]
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J Schmidt, V Francois, E Bier, and D Kimelman Drosophila short gastrulation induces an ectopic axis in Xenopus: evidence for conserved mechanisms of dorsal-ventral patterning Development, January 12, 1995; 121(12): 4319 - 4328. [Abstract] [PDF]
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C. Jones, M. Kuehn, B. Hogan, J. Smith, and C. Wright Nodal-related signals induce axial mesoderm and dorsalize mesoderm during gastrulation Development, January 11, 1995; 121(11): 3651 - 3662. [Abstract] [PDF]
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C Domingo and R Keller Induction of notochord cell intercalation behavior and differentiation by progressive signals in the gastrula of Xenopus laevis Development, January 10, 1995; 121(10): 3311 - 3321. [Abstract] [PDF]
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K Kinoshita and M Asashima Effect of activin and lithium on isolated Xenopus animal blastomeres and response alteration at the midblastula transition Development, January 6, 1995; 121(6): 1581 - 1589. [Abstract] [PDF]
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M. O'Reilly, J. Smith, and V Cunliffe Patterning of the mesoderm in Xenopus: dose-dependent and synergistic effects of Brachyury and Pintallavis Development, January 5, 1995; 121(5): 1351 - 1359. [Abstract] [PDF]
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C LaBonne, B Burke, and M Whitman Role of MAP kinase in mesoderm induction and axial patterning during Xenopus development Development, January 5, 1995; 121(5): 1475 - 1486. [Abstract] [PDF]
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R Toyama, M. O'Connell, C. Wright, M. Kuehn, and I. Dawid Nodal induces ectopic goosecoid and lim1 expression and axis duplication in zebrafish Development, January 2, 1995; 121(2): 383 - 391. [Abstract] [PDF]
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D. Kessler and D. Melton Vertebrate embryonic induction: mesodermal and neural patterning Science, October 28, 1994; 266(5185): 596 - 604. [Abstract] [PDF]
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M. E. Walmsley, M. J. Guille, D. Bertwistle, J. C. Smith, J. A. Pizzey, and R. K. Patient Negative control of Xenopus GATA-2 by activin and noggin with eventual expression in precursors of the ventral blood islands Development, September 1, 1994; 120(9): 2519 - 2529. [Abstract] [PDF]
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