bozozok and squint act in parallel to specify dorsal mesoderm and anterior neuroectoderm in zebrafish

QUICK SEARCH:

[advanced]

	Author:		Keyword(s):

Home Help Feedback Subscriptions Archive Search Table of Contents

This Article

	Summary
	Full Text (PDF)
	Alert me when this article is cited
	Alert me if a correction is posted

Services

	Email this article to a friend
	Similar articles in this journal
	Similar articles in PubMed
	Alert me to new issues of the journal
	Download to citation manager


Citing Articles

	Citing Articles via HighWire
	Citing Articles via Google Scholar

Google Scholar

	Articles by Sirotkin, H. I.
	Articles by Talbot, W. S.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Sirotkin, H. I.
	Articles by Talbot, W. S.

Behrens, J., von Kries, J. P., Kuhl, M., Bruhn, L., Wedlich, D., Grosschedl, R. and Birchmeier, W (1996). Functional interaction of beta-catenin with the transcription factor LEF-1. Nature 382, 638-642.[Medline]

Bouwmeester, T., Kim, S., Sasai, Y., Lu, B. and De Robertis, E. M (1996). Cerberus is a head-inducing secreted factor expressed in the anterior endoderm of Spemann's organizer. Nature 382, 595-601.[Medline]

Dale, L., Howes, G., Price, B. M. and Smith, J. C (1992). Bone morphogenetic protein 4: a ventralizing factor in early Xenopus development. Development 115, 573-585.[Abstract]

Dick, A., Hild, M., Bauer, H., Imai, Y., Maifeld, H., Schier, A. F., Talbot, W. S., Bouwmeester, T. and Hammerschmidt, M (2000). Essential role of Bmp7 ( snailhouse ) and its prodomain in dorsoventral patterning of the zebrafish embryo. Development 127, 343-354.[Abstract]

Erter, C. E., Solnica-Krezel, L. and Wright, C. V (1998). Zebrafish nodal-related 2 encodes an early mesendodermal inducer signaling from the extraembryonic yolk syncytial layer. Dev. Biol 204, 361-372.[Medline]

Fagotto, F., Guger, K. and Gumbiner, B. M (1997). Induction of the primary dorsalizing center in Xenopus by the Wnt/GSK/beta-catenin signaling pathway, but not by Vg1, Activin or Noggin. Development 124, 453-460.[Abstract]

Fekany, K., Yamanaka, Y., Leung, T., Sirotkin, H. I., Topczewski, J., Gates, M. A., Hibi, M., Renucci, A., Stemple, D., Radbill, A., Schier, A. F., Driever, W., Hirano, T., Talbot, W. S. and Solnica-Krezel, L (1999). The zebrafish bozozok locus encodes Dharma, a homeodomain proteinessential for induction of gastrula organizer and dorsoanterior embryonic structures. Development 126, 1427-1438.[Abstract]

Feldman, B., Gates, M. A., Egan, E. S., Dougan, S. T., Rennebeck, G., Sirotkin, H. I., Schier, A. F. and Talbot, W. S (1998). Zebrafish organizer development and germ-layer formation require nodal-related signals. Nature 395, 181-185.[Medline]

Feldman, B., Dougan, S. T., Schier, A. F. and Talbot, W. S (2000). Nodal-related signals establish mesendodermal fate and trunk neural identity in zebrafish. Curr. Biol 10, 531-534.[Medline]

Furthauer, M., Thisse, B. and Thisse, C (1999). Three different noggin genes antagonize the activity of bone morphogenetic proteins in the zebrafish embryo. Dev. Biol 214, 181-196.[Medline]

Gates, M. A., Kim, L., Egan, E. S., Cardozo, T., Sirotkin, H. I., Dougan, S. T., Lashkari, D., Abagyan, R., Schier, A. F. and Talbot, W. S (1999). A genetic linkage map for zebrafish: comparative analysis and localization of genes and expressed sequences. Genome Res 9, 334-347.[Abstract/Free Full Text]

Glinka, A., Wu, W., Delius, H., Monaghan A. P., Blumenstock, C. and Niehrs, C (1998). Dickkopf-1 is a member of a new family of secreted proteins and functions in head induction. Nature 391, 357-362.[Medline]

Harland, R. and Gerhart, J (1997). Formation and function of Spemann's organizer. Annu. Rev. Cell Dev. Biol 13, 611-667.[Medline]

Hashimoto, H., Itoh, M., Yamanaka, Y., Yamashita, S., Shimizu, T., Solnica-Krezel, L., Hibi, M. and Hirano, T (2000). Zebrafish Dkk1 functions in forebrain specification and axial mesendoderm formation. Dev. Biol 217, 138-152.[Medline]

Heasman, J., Crawford, A., Goldstone, K., Garner-Hamrick, P., Gumbiner, B., McCrea, P., Kintner, C., Noro, C. Y. and Wylie, C (1994). Overexpression of cadherins and underexpression of beta-catenin inhibit dorsal mesoderm induction in early Xenopus embryos. Cell 79, 791-803.[Medline]

Hemmati-Brivanlou, A. and Thomsen, G. H (1995). Ventral mesodermal patterning in Xenopus embryos: expression patterns and activities of BMP-2 and BMP-4. Dev. Genet 17, 78-89.[Medline]

Hemmati-Brivanlou, A., Kelly, O. G. and Melton, D. A (1994). Follistatin, an antagonist of activin, is expressed in the Spemann organizer and displays direct neuralizing activity. Cell 77, 283-285.[Medline]

Jones, C. M., Lyons, K. M., Lapan, P. M., Wright, C. V. and Hogan, B. L (1992). DVR-4 (bone morphogenetic protein-4) as a posterior-ventralizing factor in Xenopus mesoderm induction. Development 115, 639-647.[Abstract]

Kimmel, C. B., Ballard, W. W., Kimmel, S. R., Ullmann, B. and Schilling, T. F (1995). Stages of embryonic development of the zebrafish. Dev. Dyn 203, 253-310.[Medline]

Kishimoto, Y., Lee, K. H., Zon, L., Hammerschmidt, M. and Schulte-Merker, S (1997). The molecular nature of zebrafish swirl : BMP2 function is essential during early dorsoventral patterning. Development 124, 4457-466.[Abstract]

Koos, D. S. and Ho, R. K (1998). The nieuwkoid gene characterizes and mediates a Nieuwkoop-center-like activity in the zebrafish. Curr. Biol 8, 1199-1206.[Medline]

Koos, D. S. and Ho, R. K (1999). The nieuwkoid/dharma homeobox gene is essential for bmp2b repression in the zebrafish pregastrula. Dev. Biol 215, 190-207.[Medline]

Krauss, S., Johansen, T., Korzh, V., Moens, U., Ericson, J. U. and Fjose, A (1991). Zebrafish pax[zf-a]: a paired box-containing gene expressed in the neural tube. EMBO J 10, 3609-3619.[Medline]

Krauss, S., Johansen, T., Korzh, V. and Fjose, A (1991). Expression of the zebrafish paired box gene pax[zf-b] during early neurogenesis. Development 113, 1193-1206.[Abstract]

Larabell, C. A., Torres, M., Rowning, B. A., Yost, C., Miller, J. R., Wu, M., Kimelman, D. and Moon, R. T (1997). Establishment of the dorsoventral axis in Xenopus embryos is presaged by early asymmetries in beta-catenin that are modulated by the Wnt signaling pathway. J. Cell Biol 136, 1123-1136.[Abstract/Free Full Text]

Long, W. L (1983). The role of the yolk syncytial layer in determination of the plane of bilateral symmetry in the Rainbow Trout, Salmo gairdneri Richardson. J. Exp. Zool 228, 91-97.

Miller-Bertoglio, V. E., Fisher, S., Sanchez, A., Mullins, M. C. and Halpern, M. E (1997). Differential regulation of chordin expression domains in mutant zebrafish. Dev. Biol 192, 537-550.[Medline]

Mizuno, T., Yamaha, E., Wakahara, M., Kurolwa, A. and Takeda, H (1996). Mesoderm induction in zebrafish. Nature 383, 131-132.

Molenaar, M., van de Wetering, M., Oosterwegel, M., Peterson-Maduro, J., Godsave, S., Korinek, V., Roose, J., Destree, O. and Clevers, H (1996). XTcf-3 transcription factor mediates beta-catenin-induced axis formation in Xenopus embryos. Cell 86, 391-399.[Medline]

Moon, R. T. and Kimelman, D (1998). From cortical rotation to organizer gene expression: toward a molecular explanation of axis specification in Xenopus. BioEssays 20, 536-545.[Medline]

Mori, H., Miyazaki, Y., Morita, T., Nitta, H. and Mishina, M (1994). Different spatio-temporal expressions of three otx homeoprotein transcripts during zebrafish embryogenesis. Brain Res. Mol. Brain Res 27, 221-231.[Medline]

Morita, T., Nitta, H., Kiyama, Y., Mori, H. and Mishina, M (1995). Differential expression of two zebrafish emx homeoprotein mRNAs in the developing brain. Neurosci Lett 198, 131-134.[Medline]

Nguyen, V. H., Schmid, B., Trout, J., Connors, S. A., Ekker, M. and Mullins, M. C (1998). Ventral and lateral regions of the zebrafish gastrula, including the neural crest progenitors, are established by a bmp2b/swirl pathway of genes. Dev. Biol 199, 93-110.[Medline]

Niehrs, C (1999). Head in the WNT: the molecular nature of Spemann's head organizer. Trends Genet 15, 314-319.[Medline]

Nieto, M. A (1999). Reorganizing the organizer 75 years on. Cell 98, 417-425.[Medline]

Nishimatsu, S. and Thomsen, G. H (1998). Ventral mesoderm induction and patterning by bone morphogenetic protein heterodimers in Xenopus embryos. Mech. Dev 74, 75-88.[Medline]

Oxtoby, E. and Jowett, T (1993). Cloning of the zebrafish krox-20 gene ( krx-20 ) and its expression during hindbrain development. Nucleic Acids Res 21, 1087-1095.[Abstract/Free Full Text]

Pelegri, F. and Maischein, H. M (1998). Function of zebrafish beta-catenin and TCF-3 in dorsoventral patterning. Mech. Dev 77, 63-74.[Medline]

Piccolo, S., Agius, E., Leyns, L., Bhattacharyya, S., Grunz, H., Bouwmeester, T. and De Robertis, E. M (1999). The head inducer Cerberus is a multifunctional antagonist of Nodal, BMP and Wnt signals. Nature 397, 707-710.[Medline]

Piccolo, S., Sasai, Y., Lu, B. and De Robertis, E. M (1996). Dorsoventral patterning in Xenopus: inhibition of ventral signals by direct binding of chordin to BMP-4. Cell 86, 589-598.[Medline]

Rebagliati, M. R., Toyama, R., Haffter, P. and Dawid, I. B (1998). cyclops encodes a nodal-related factor involved in midline signaling. Proc. Natl. Acad. Sci. USA 95, 9932-9937.[Abstract/Free Full Text]

Rebagliati, M. R., Toyama, R., Fricke, C., Haffter, P. and Dawid, I. B (1998). Zebrafish nodal-related genes are implicated in axial patterning and establishing left-right asymmetry. Dev. Biol 199, 261-272.[Medline]

Sampath, K., Rubinstein, A. L., Cheng, A. M., Liang, J. O., Fekany, K., Solnica-Krezel, L., Korzh, V., Halpern, M. E. and Wright, C. V. E (1998). Induction of the zebrafish ventral brain and floorplate requires cyclops/nodal signalling. Nature 395, 185-189.[Medline]

Sasai, Y., Lu, B., Steinbeisser, H., Geissert, D., Gont, L. K. and De Robertis, E. M (1994). Xenopus chordin: a novel dorsalizing factor activated by organizer-specific homeobox genes. Cell 79, 779-790.[Medline]

Schier, A. F., Neuhauss, S. C., Harvey, M., Malicki, J., Solnica-Krezel, L., Stainier, D. Y., Zwartkruis, F., Abdelilah, S., Stemple, D. L., Rangini, Z., Yang, H. and Driever, W (1996). Mutations affecting the development of the embryonic zebrafish brain. Development 123, 165-178.[Abstract]

Schier, A. S.and Shen, M. M (2000). Nodal signalling in vertebrate development. Nature 403, 385-389.[Medline]

Schier, A. F. and Talbot, W. S (1998). The zebrafish organizer. Curr. Opin. Genet. Dev 8, 464-471.[Medline]

Schmid, B., Furthauer, M., Connors, S. A., Trout, J., Thisse, B., Thisse, C. and Mullins, M. C (2000). Equivalent genetic roles for bmp7/snailhouse and bmp2b/swirl in dorsoventral pattern formation. Development 127, 957-967.[Abstract]

Schneider, S., Steinbeisser, H., Warga, R. M. and Hausen, P (1996). Beta-catenin translocation into nuclei demarcates the dorsalizing centers in frog and fish embryos. Mech. Dev 57, 191-198.[Medline]

Schulte-Merker, S., Lee, L. J., McMahon, A. P. and Hammerschmidt, M (1997). The zebrafish organizer requires chordino. Nature 387, 862-863.[Medline]

Smith, W. C. and Harland, R. M (1992). Expression cloning of noggin, a new dorsalizing factor localized to the Spemann organizer in Xenopus embryos. Cell 70, 829-840.[Medline]

Solnica-Krezel, L., Stemple, D. L., Mountcastle-Shah, E., Rangini, Z., Neuhauss, S. C., Malicki, J., Schier, A. F., Stainier, D. Y., Zwartkruis, F., Abdelilah, S. and Driever, W (1996). Mutations affecting cell fates and cellular rearrangements during gastrulation in zebrafish. Development 123, 67-80.[Abstract]

Str\212hle, U., Blader, P., Henrique, D. and Ingham, P. W (1993). Axial , a zebrafish gene expressed along the developing body axis, shows altered expression in cyclops mutant embryos. Genes Dev 7, 1436-1446.[Abstract/Free Full Text]

Thisse, C., Thisse, B., Halpern, M. E. and Postlethwait, J. H (1994). goosecoid expression in neurectoderm and mesendoderm is disrupted in zebrafish cyclops gastrulas. Dev. Biol 164, 420-429.[Medline]

Thisse, C., Thisse, B., Schilling, T. F. and Postlethwait, J. H (1993). Structure of the zebrafish snail1 gene and its expression in wild-type, spadetail and no tail mutant embryos. Development 119, 1203-1215.[Abstract]

Varlet, I., Collignon, J. and Robertson, E. J (1997). nodal expression in the primitive eododerm is required for the specification of the anterior axis during mouse gastrulation. Development 124, 1033-1044.[Abstract]

Wylie, C., Kofron, M., Payne, C., Anderson, R., Hosobuchi, M., Joseph, E. and Heasman, J (1996). Maternal beta-catenin establishes a \324dorsal signal' in early Xenopus embryos. Development 122, 2987-2996.[Abstract]

Woo, K. and Fraser, S. E (1997). Specification of the zebrafish nervous system by nonaxial signals. Science 277, 254-257.[Abstract/Free Full Text]

Yamanaka, Y., Mizuno, T., Sasai, Y., Kishi, M., Takeda, H., Kim, C. H., Hibi, M. and Hirano, T (1998). A novel homeobox gene, dharma , can induce the organizer in a non-cell-autonomous manner. Genes Dev 12, 2345-2353.[Abstract/Free Full Text]

Zimmerman, L. B., De Jesus-Escobar, J. M. and Harland, R. M (1996). The Spemann organizer signal noggin binds and inactivates bone morphogenetic protein 4. Cell 86, 599-606.[Medline]

This article has been cited by other articles:

J. Tian, B. Andree, C. M. Jones, and K. Sampath
The pro-domain of the zebrafish Nodal-related protein Cyclops regulates its signaling activities
Development, August 1, 2008; 135(15): 2649 - 2658.
[Abstract] [Full Text] [PDF]

C. Chang and R. M. Harland
Neural induction requires continued suppression of both Smad1 and Smad2 signals during gastrulation
Development, November 1, 2007; 134(21): 3861 - 3872.
[Abstract] [Full Text] [PDF]

S. Maegawa, M. Varga, and E. S. Weinberg
FGF signaling is required for {beta}-catenin-mediated induction of the zebrafish organizer
Development, August 15, 2006; 133(16): 3265 - 3276.
[Abstract] [Full Text] [PDF]

T. P. Wilm and L. Solnica-Krezel
Essential roles of a zebrafish prdm1/blimp1 homolog in embryo patterning and organogenesis
Development, January 15, 2005; 132(2): 393 - 404.
[Abstract] [Full Text] [PDF]

F. Bertocchini, I. Skromne, L. Wolpert, and C. D. Stern
Determination of embryonic polarity in a regulative system: evidence for endogenous inhibitors acting sequentially during primitive streak formation in the chick embryo
Development, July 15, 2004; 131(14): 3381 - 3390.
[Abstract] [Full Text] [PDF]

L. A. Trinh, D. Meyer, and D. Y. R. Stainier
The Mix family homeodomain gene bonnie and clyde functions with other components of the Nodal signaling pathway to regulate neural patterning in zebrafish
Development, October 15, 2003; 130(20): 4989 - 4998.
[Abstract] [Full Text] [PDF]

S. Long, N. Ahmad, and M. Rebagliati
The zebrafish nodal-related gene southpaw is required for visceral and diencephalic left-right asymmetry
Development, June 1, 2003; 130(11): 2303 - 2316.
[Abstract] [Full Text] [PDF]

S. T. Dougan, R. M. Warga, D. A. Kane, A. F. Schier, and W. S. Talbot
The role of the zebrafish nodal-related genes squint and cyclops in patterning of mesendoderm
Development, May 1, 2003; 130(9): 1837 - 1851.
[Abstract] [Full Text] [PDF]

C. Berry
Get ahead!
QJM, March 1, 2002; 95(3): 193 - 194.
[Full Text] [PDF]

M. Poulain and T. Lepage
Mezzo, a paired-like homeobox protein is an immediate target of Nodal signalling and regulates endoderm specification in zebrafish
Development, January 11, 2002; 129(21): 4901 - 4914.
[Abstract] [Full Text] [PDF]

G. Hauptmann, H.-G. Belting, U. Wolke, K. Lunde, I. Soll, S. Abdelilah-Seyfried, V. Prince, and W. Driever
spiel ohne grenzen/pou2 is required for zebrafish hindbrain segmentation
Development, January 4, 2002; 129(7): 1645 - 1655.
[Abstract] [Full Text] [PDF]

S. van de Water, M. van de Wetering, J. Joore, J. Esseling, R. Bink, H. Clevers, and D. Zivkovic
Ectopic Wnt signal determines the eyeless phenotype of zebrafish masterblind mutant
Development, October 15, 2001; 128(20): 3877 - 3888.
[Abstract] [Full Text] [PDF]

C. E. Erter, T. P. Wilm, N. Basler, C. V. E. Wright, and L. Solnica-Krezel
Wnt8 is required in lateral mesendodermal precursors for neural posteriorization in vivo
Development, September 15, 2001; 128(18): 3571 - 3583.
[Abstract] [Full Text] [PDF]

Y. Imai, M. A. Gates, A. E. Melby, D. Kimelman, A. F. Schier, and W. S. Talbot
The homeobox genes vox and vent are redundant repressors of dorsal fates in zebrafish
Development, June 15, 2001; 128(12): 2407 - 2420.
[Abstract] [Full Text] [PDF]

C.-P. Heisenberg, C. Houart, M. Take-uchi, G.-J. Rauch, N. Young, P. Coutinho, I. Masai, L. Caneparo, M. L. Concha, R. Geisler, et al.
A mutation in the Gsk3-binding domain of zebrafish Masterblind/Axin1 leads to a fate transformation of telencephalon and eyes to diencephalon
Genes & Dev., June 1, 2001; 15(11): 1427 - 1434.
[Abstract] [Full Text] [PDF]

E. M. Gonzalez, K. Fekany-Lee, A. Carmany-Rampey, C. Erter, J. Topczewski, C. V.E. Wright, and L. Solnica-Krezel
Head and trunk in zebrafish arise via coinhibition of BMP signaling by bozozok and chordino
Genes & Dev., December 15, 2000; 14(24): 3087 - 3092.
[Abstract] [Full Text]

This Article

Summary

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Sirotkin, H. I.

Articles by Talbot, W. S.

Search for Related Content

PubMed

PubMed Citation

Articles by Sirotkin, H. I.

Articles by Talbot, W. S.

				C. Chang and R. M. Harland Neural induction requires continued suppression of both Smad1 and Smad2 signals during gastrulation Development, November 1, 2007; 134(21): 3861 - 3872. [Abstract] [Full Text] [PDF]

				S. Maegawa, M. Varga, and E. S. Weinberg FGF signaling is required for {beta}-catenin-mediated induction of the zebrafish organizer Development, August 15, 2006; 133(16): 3265 - 3276. [Abstract] [Full Text] [PDF]

				T. P. Wilm and L. Solnica-Krezel Essential roles of a zebrafish prdm1/blimp1 homolog in embryo patterning and organogenesis Development, January 15, 2005; 132(2): 393 - 404. [Abstract] [Full Text] [PDF]

				F. Bertocchini, I. Skromne, L. Wolpert, and C. D. Stern Determination of embryonic polarity in a regulative system: evidence for endogenous inhibitors acting sequentially during primitive streak formation in the chick embryo Development, July 15, 2004; 131(14): 3381 - 3390. [Abstract] [Full Text] [PDF]

				L. A. Trinh, D. Meyer, and D. Y. R. Stainier The Mix family homeodomain gene bonnie and clyde functions with other components of the Nodal signaling pathway to regulate neural patterning in zebrafish Development, October 15, 2003; 130(20): 4989 - 4998. [Abstract] [Full Text] [PDF]

				S. Long, N. Ahmad, and M. Rebagliati The zebrafish nodal-related gene southpaw is required for visceral and diencephalic left-right asymmetry Development, June 1, 2003; 130(11): 2303 - 2316. [Abstract] [Full Text] [PDF]

				S. T. Dougan, R. M. Warga, D. A. Kane, A. F. Schier, and W. S. Talbot The role of the zebrafish nodal-related genes squint and cyclops in patterning of mesendoderm Development, May 1, 2003; 130(9): 1837 - 1851. [Abstract] [Full Text] [PDF]

				C. Berry Get ahead! QJM, March 1, 2002; 95(3): 193 - 194. [Full Text] [PDF]

				M. Poulain and T. Lepage Mezzo, a paired-like homeobox protein is an immediate target of Nodal signalling and regulates endoderm specification in zebrafish Development, January 11, 2002; 129(21): 4901 - 4914. [Abstract] [Full Text] [PDF]

				G. Hauptmann, H.-G. Belting, U. Wolke, K. Lunde, I. Soll, S. Abdelilah-Seyfried, V. Prince, and W. Driever spiel ohne grenzen/pou2 is required for zebrafish hindbrain segmentation Development, January 4, 2002; 129(7): 1645 - 1655. [Abstract] [Full Text] [PDF]

				S. van de Water, M. van de Wetering, J. Joore, J. Esseling, R. Bink, H. Clevers, and D. Zivkovic Ectopic Wnt signal determines the eyeless phenotype of zebrafish masterblind mutant Development, October 15, 2001; 128(20): 3877 - 3888. [Abstract] [Full Text] [PDF]

				C. E. Erter, T. P. Wilm, N. Basler, C. V. E. Wright, and L. Solnica-Krezel Wnt8 is required in lateral mesendodermal precursors for neural posteriorization in vivo Development, September 15, 2001; 128(18): 3571 - 3583. [Abstract] [Full Text] [PDF]

				Y. Imai, M. A. Gates, A. E. Melby, D. Kimelman, A. F. Schier, and W. S. Talbot The homeobox genes vox and vent are redundant repressors of dorsal fates in zebrafish Development, June 15, 2001; 128(12): 2407 - 2420. [Abstract] [Full Text] [PDF]

				C.-P. Heisenberg, C. Houart, M. Take-uchi, G.-J. Rauch, N. Young, P. Coutinho, I. Masai, L. Caneparo, M. L. Concha, R. Geisler, et al. A mutation in the Gsk3-binding domain of zebrafish Masterblind/Axin1 leads to a fate transformation of telencephalon and eyes to diencephalon Genes & Dev., June 1, 2001; 15(11): 1427 - 1434. [Abstract] [Full Text] [PDF]

				E. M. Gonzalez, K. Fekany-Lee, A. Carmany-Rampey, C. Erter, J. Topczewski, C. V.E. Wright, and L. Solnica-Krezel Head and trunk in zebrafish arise via coinhibition of BMP signaling by bozozok and chordino Genes & Dev., December 15, 2000; 14(24): 3087 - 3092. [Abstract] [Full Text]