Science 9 November 1990: Vol. 250. no. 4982, pp. 800 - 802 DOI: 10.1126/science.1978411

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Articles

Positioning of the midbrain-hindbrain boundary organizer through global posteriorization of the neuroectoderm mediated by Wnt8 signaling.

M. Rhinn, K. Lun, M. Luz, M. Werner, and M. Brand (2005)
Development 132, 1261-1272
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A central role for the notochord in vertebral patterning.

A. Fleming, R. Keynes, and D. Tannahill (2004)
Development 131, 873-880
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Atrophin 2 recruits histone deacetylase and is required for the function of multiple signaling centers during mouse embryogenesis.

J. S. Zoltewicz, N. J. Stewart, R. Leung, and A. S. Peterson (2004)
Development 131, 3-14
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spiel ohne grenzen/pou2 is required during establishment of the zebrafish midbrain-hindbrain boundary organizer.

H.-G. Belting, G. Hauptmann, D. Meyer, S. Abdelilah-Seyfried, A. Chitnis, C. Eschbach, I. Soll, C. Thisse, B. Thisse, K. B. Artinger, et al. (2001)
Development 128, 4165-4176
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A morphogen gradient of Wnt/{beta}-catenin signalling regulates anteroposterior neural patterning in Xenopus.

C. Kiecker and C. Niehrs (2001)
Development 128, 4189-4201
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The zebrafish buttonhead-like factor Bts1 is an early regulator of pax2.1 expression during mid-hindbrain development.

A. Tallafu{beta}, T. P. Wilm, M. Crozatier, P. Pfeffer, M. Wassef, and L. Bally-Cuif (2001)
Development 128, 4021-4034
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Primitive erythropoiesis in the Xenopus embryo: the synergistic role of LMO-2, SCL and GATA-binding proteins.

P. E. Mead, A. E. Deconinck, T. L. Huber, S. H. Orkin, and L. I. Zon (2001)
Development 128, 2301-2308
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eFGF and its mode of action in the community effect during Xenopus myogenesis.

H. Standley, A. Zorn, and J. Gurdon (2001)
Development 128, 1347-1357
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Graded interference with FGF signalling reveals its dorsoventral asymmetry at the mid-hindbrain boundary.

M Carl and J Wittbrodt (1999)
Development 126, 5659-5667
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Engrailed defines the position of dorsal di-mesencephalic boundary by repressing diencephalic fate.

I Araki and H Nakamura (1999)
Development 126, 5127-5135
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Axial mesendoderm refines rostrocaudal pattern in the chick nervous system.

A. Rowan, C. Stern, and K. Storey (1999)
Development 126, 2921-2934
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Sequential roles for Fgf4, En1 and Fgf8 in specification and regionalisation of the midbrain.

H Shamim, R Mahmood, C Logan, P Doherty, A Lumsden, and I Mason (1999)
Development 126, 945-959
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Expression of the mouse cerberus-related gene, Cerr1, suggests a role in anterior neural induction and somitogenesis.

W. Shawlot, J. M. Deng, and R. R. Behringer (1998)
PNAS 95, 6198-6203
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SCL specifies hematopoietic mesoderm in Xenopus embryos.

P. Mead, C. Kelley, P. Hahn, O Piedad, and L. Zon (1998)
Development 125, 2611-2620
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Initial anteroposterior pattern of the zebrafish central nervous system is determined by differential competence of the epiblast.

S Koshida, M Shinya, T Mizuno, A Kuroiwa, and H Takeda (1998)
Development 125, 1957-1966
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Hex: a homeobox gene revealing peri-implantation asymmetry in the mouse embryo and an early transient marker of endothelial cell precursors.

P. Thomas, A Brown, and R. Beddington (1998)
Development 125, 85-94
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Jak1 kinase is required for cell migrations and anterior specification in zebrafish embryos.

G. Conway, A. Margoliath, S. Wong-Madden, R. J. Roberts, and W. Gilbert (1997)
PNAS 94, 3082-3087
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Mechanisms of dorsal-ventral patterning in noggin-induced neural tissue.

A. Knecht and R. Harland (1997)
Development 124, 2477-2488
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Expression of Pax-3 is initiated in the early neural plate by posteriorizing signals produced by the organizer and by posterior non-axial mesoderm.

A. Bang, N Papalopulu, C Kintner, and M. Goulding (1997)
Development 124, 2075-2085
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Direct neural induction and selective inhibition of mesoderm and epidermis inducers by Xnr3.

C. Hansen, C. Marion, K Steele, S George, and W. Smith (1997)
Development 124, 483-492
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Regional specification of motoneurons along the anterior-posterior axis is independent of the notochord.

M Fukushima, M Nakamura, K Ohta, R Okamura, and A Negi (1996)
Development 122, 905-914
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Caudalization of neural fate by tissue recombination and bFGF.

W. Cox and A Hemmati-Brivanlou (1995)
Development 121, 4349-4358
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Fibroblast growth factor is a direct neural inducer, which combined with noggin generates anterior-posterior neural pattern.

T. Lamb and R. Harland (1995)
Development 121, 3627-3636
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Linkage of cardiac left-right asymmetry and dorsal-anterior development in Xenopus.

M. Danos and H. Yost (1995)
Development 121, 1467-1474
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Expression of murine STF-1, a putative insulin gene transcription factor, in beta cells of pancreas, duodenal epithelium and pancreatic exocrine and endocrine progenitors during ontogeny.

Y Guz, M. Montminy, R Stein, J Leonard, L. Gamer, C. Wright, and G Teitelman (1995)
Development 121, 11-18
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Vertebrate embryonic induction: mesodermal and neural patterning.

D. Kessler and D. Melton (1994)
Science 266, 596-604
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Spatially regulated expression of three receptor tyrosine kinase genes during gastrulation in the zebrafish.

Q Xu, N Holder, R Patient, and S. Wilson (1994)
Development 120, 287-299
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Neural induction by the secreted polypeptide noggin.

T. Lamb, A. Knecht, W. Smith, S. Stachel, A. Economides, N Stahl, G. Yancopolous, and R. Harland (1993)
Science 262, 713-718
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Anterior mesendoderm induces mouse Engrailed genes in explant cultures.

S. Ang and J Rossant (1993)
Development 118, 139-149
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Chimeric analysis of T (Brachyury) gene function.

V Wilson, P Rashbass, and R. Beddington (1993)
Development 117, 1321-1331
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Planar induction of anteroposterior pattern in the developing central nervous system of Xenopus laevis.

T Doniach, C. Phillips, and J. Gerhart (1992)
Science 257, 542-545
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Specific activation of mammalian Hox promoters in mosaic transgenic zebrafish..

M Westerfield, J Wegner, B G Jegalian, E M DeRobertis, and A W Puschel (1992)
Genes & Dev. 6, 591-598
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Planar and vertical signals in the induction and patterning of the Xenopus nervous system.

A Ruiz i Altaba (1992)
Development 116, 67-80
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Expression of tenascin mRNA in mesoderm during Xenopus laevis embryogenesis: the potential role of mesoderm patterning in tenascin regionalization.

M Umbhauer, J. Riou, J Spring, J. Smith, and J. Boucaut (1992)
Development 116, 147-157
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Xenopus Kielin: A dorsalizing factor containing multiple chordin-type repeats secreted from the embryonic midline.

M. Matsui, K. Mizuseki, J. Nakatani, S. Nakanishi, and Y. Sasai (2000)
PNAS 97, 5291-5296
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