Hoxb-8 has a role in establishing early anterior-posterior polarity in chick forelimb but not hindlimb

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 Stratford, T. H.
	Articles by Maden, M.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Stratford, T. H.
	Articles by Maden, M.


Social Bookmarking

	What's this?

Bueno, D., Skinner, J., Abud, H. and Heath, J. K (1996). Spatial and temporal relationships between Shh , Fgf-4 and Fgf-8 gene expression at diverse signalling centres during mouse development. Develop. Dynamics 207, 291-299.[Medline]

Charite, J., Graaff, D., W., Shen, S. and Deschamps, J (1994). Ectopic expression of Hoxb-8 causes duplication of the ZPA in the forelimb and homeotic transformation of axial structure. Cell 78, 589-601.[Medline]

Cohn, M. J., Izpisua-Belmonte, J. C., Abub, H., Heath, J. K. and Tickle, C (1995). Fibroblast growth factors induce additional limb development from the flank of chick embryos. Cell 80, 739-746.[Medline]

Cohn, M. J., Patel, K., Krumlauf, R., Wilkinson, D., Clarke, J. D. W. and Tickle, C (1997). Hox genes and vertebrate limb specification. Nature 387, 97-101.[Medline]

Crossley, P., Minowada, G., MacArthur, C. and Martin, G (1996). Roles for FGF-8 in the induction, initiation and maintenance of chick limb development. Cell 84, 127-136.[Medline]

Davis, A., Witte, D., Hsieh-Li, H., Potter, S. and Capecchi, M (1995). Absence of radius and ulna in mice lacking hoxa-11 and hoxd-11. Nature 375, 791-795.[Medline]

Duboule, D (1994). How to make a limb. Science 266, 575-576.[Free Full Text]

Duboule, D. and Dolle, P (1989). The structural and functional organization of the murine Hox gene family resembles that of the Drosophila homeotic genes. EMBOJ 8, 1497-1505.[Medline]

Fallon, J., Lopez, A., Ros, M., Savage, M., Olwin, B. and Simandl, B (1994). FGF-2: Apical ectodermal ridge growth signal for chick limb development. Science 264, 104-107.[Abstract/Free Full Text]

Francis-West, P. H., Richardson, M. K., Brickell, P. M. and Tickle, C (1994). Bone morphogenetic proteins and a signalling pathway that controls patterning in the developing chick limb. Development 120, 209-218.[Abstract]

Gibson-Brown, J. J., Agulnik, S. I., Chapman, D. L., Alexiou, M., Garvey, N., Silver, L. M. and Papaioannou, V. E (1996). Evidence of a role for T-box genes in the evolution of limb morphogenesis and the specification of forelimb/hindlimb identity. Mech. Dev 56, 93-101.[Medline]

Graham, A., Papalopulu, N. and Krumlauf, R (1989). The murine and drosophila homeobox cluster have common features of organization and expression. Cell 57, 367-378.[Medline]

Grieshammer, U., Minowada, G., Pisenti, J., Abbott, U. and Martin, G (1996). The chick limbless mutant causes abnormalities in limb bud dorsal-ventral patterning: implications for the mechanism of apical ridge formation. Development 122, 3851-3861.[Abstract]

Hamburger, V (1938). Morphogenetic and axial self-differentiation of transplanted limb primordia of 2 day chick embryos. J. Exp. Zool 77, 379-400.

Hamburger, V. and Hamilton, H (1951). A series of normal stages in the development of the chick embryo. J. Morph 88, 49-92.

Helms, J., Kim, C., Eichele, G. and Thaller, C (1996). Retinoic acid signaling is required during early chick development. Development 122, 1385-1394.[Abstract]

Honig, L. S. and Summerbell, D (1985). Maps of strength of positional signalling in the developing chick wing bud. J. Embryol. Exp. Morph 87, 163-174.[Medline]

Hornbruch, A. and Wolpert, L (1991). The spatial and temporal distribution of polarizing activity in the flank of the pre-limb-bud stages in the chick embryo. Development 111, 725-731.[Abstract]

Hui-Chen, L., Eichele, G. and Thaller, C (1997). Ligand-bound RXR can mediate retinoid signal transduction during embryogenesis. Development 124, 195-203.[Abstract]

Hui-Chen, L., Jean-pierre, R., Goering, L., Thaller, C. and Eichele, G (1997). Retinoid signaling is required for the establishment of a ZPA and for the expression of Hoxb-8 , a mediator of ZPA formation. Development 124, 1643-1651.[Abstract]

Izpisua-Belmonte, J.-C., Tickle, C., Dolle, P., Wolpert, L. and Duboule, D (1991). Expression of the homeobox Hox-4 genes and the specification of position in chick wing development. Nature 350, 585-.[Medline]

Krumlauf, R (1994). Hox genes in verterbrate development. Cell 78, 191-201.[Medline]

Laufer, E., Nelson, C., Johnston, R., Morgan, B. and Tabin, C (1994). Sonic hedgehog and FGF-4 act through a signaling cascade and feedback loop to integrate growth and patterning of the developing limb bud. Cell 79, 993-1003.[Medline]

Lewis, J. H. and Wolpert, L (1976). The principle of non-equivalence in development. J. Theoret. Biology 62, 479-490.[Medline]

Loh, E. Y., Elliott, J. F., Cwirla, S., Lanier, L. L. and Davis, M. M (1989). Polymerase Chain Reaction with single-sided specificity: Analysis of T cell receptorchain. Science 243, 217-220.[Abstract/Free Full Text]

Lopez-Martinez, A., Chang, D., Chiang, C., Porter, J., Ros, M., Simandl, B., Beachy, P. and Fallon, J (1995). Limb-patterning activity and restricted posterior localization of the amino-terminal product of sonic hedgehog cleavage. Current Biology 5, 791-796.[Medline]

MacCabe, J. A., Errick, J. and Saunders, J. W (1974). Ectodermal control of the dorsalventral axis in the leg bud of the chick embryo. Dev. Biol 39, 69-82.[Medline]

Marshall, H., Studer, M., Popperl, H., Aparicio, S., Kuriowa, A., Brenner, S. and Krumlauf, R (1994). A conserved retinoic acid response element required for early expression of the homeobox gene Hoxb-1. Nature 370, 567-571.[Medline]

Marti, E., Takada, R., Bumrot, D., Sasaki, H. and McMahon, A (1995). Distribution of sonic hedgehog peptides in the developing chick and mouse embryo. Development 121, 2537-2547.[Abstract]

McGinnis, W. and Krumlauf, R (1992). Homeobox genes and axial patterning. Cell 68, 283-302.[Medline]

Morgan, B., Izpisua-Belmonte, J., Duboule, D. and Tabin, C (1992). Targeted misexpression of Hox-4. 6 in the avian limb bud causes apparent homeotic transformations. Nature 358, 236-239.[Medline]

Nelson, C., Morgan, B., Burke, A., Luafer, E., Dimambro, E., Murtaugh, L., Gonzales, E., Tessarollo, L., Parada, L. and Tabin, C (1996). Analysis of hox gene expression in the chick limb bud. Development 122, 1449-1466.[Abstract]

Niswander, L., Jeffrey, S., Martin, G. R. and Tickle, C (1994). A positive feedback loop coordinates growth and patterning in the vertebrate limb. Nature 371, 609-612.[Medline]

Niswander, L. and Martin, G (1992). Fgf-4 expression during gastrulation,myogenesis, limb and tooth development in the mouse. Development 114, 755-768.[Abstract]

Niswander, L., Tickle, C., Vogel, A., Booth, I. and Martin, G (1993). FGF-4 Replaces the apical ectodermal ridge and directs outgrowth and patterning of the limb. Cell 75, 579-587.[Medline]

Parr, B. A. and McMahon, A. P (1995). Dorsalizing signal Wnt-7a required for normal polarity of D-V and A-P axes of mouse limb. Nature 374, 350-353.[Medline]

Rancourt, D., Tsuzuki, T. and Capecchi, M (1995). Genetic interaction between hoxb-5 and hoxb-6 is revealed by nonallelic noncomplementation. Genes Dev 9, 108-122.[Abstract/Free Full Text]

Riddle, R., Ensini, M., Nelson, C., Tsuchida, T., Jessell, T. and Tabin, C (1995). Induction of the LIM homeobox gene Lmx1 by WNT7a establishes doesoventral pattern in the verterbrate limb. Cell 83, 631-640.[Medline]

Riddle, R. D., Johnson, R. L., Laufer, E. and Tabin, C (1993). Sonic hedgehog mediates the polarizing activity of the ZPA. Cell 75, 1401-1416.[Medline]

Roelink, H., Augsburger, A., Heemskerk, J., Korzh, V., Norlin, S., Ruiz i Altaba, Tanabe, Y., Placzek, M., Edlund, T., Jessell, T. M. and Dodd, J (1994). Floor plate and motor neuron induction by vhh-1 , a vertebrate homolog of hedgehog expressed by the notochord. Cell 76, 761-775.[Medline]

Ros, M. A., Lopez-Martinez, A., Simandl, K. B., Rodriguez, C., Izpisua belmonte, J. C., Dahn, R. and Fallon, J. F (1996). The limb field mesoderm determines initial limb bud anteroposterior asymmetry and budding independent of sonic or apical ectodermal gene expressions. Development 122, 2319-2330.[Abstract]

Scotting, P. J., Hewitt, M. and Keynes, R. J (1990). Isolation and analysis of chick homeobox cDNA clones. Nucleic Acids Research 18, 3999-.[Free Full Text]

Saunders, J. W (1948). The proximo-distal sequence of the origin of skeletal parts of the chick wing and the role of the ectoderm. J. Exp. Zool 108, 363-403.[Medline]

Stratford, T., Horton, C. and Maden, M (1996). Retinoic acid is required for the initiation of outgrowth in the chick limb bud. Current Biology 6, 1124-1133.[Medline]

Thaller, C. and Eichele, G (1987). Identification and spatial distribution of retinoids in the developing chick limb bud. Nature 327, 625-628.[Medline]

Tickle, C (1995). Vertebrate limb development. Current Opinion in Genetics and Development 5, 478-484.[Medline]

Tickle, C., Alberts, B., Wolpert, L. and Lee, J (1982). Local application of retinoic acid to the limb bond mimics the action of the polarizing region. Nature 296, 564-566.[Medline]

Tickle, C., Lee, J. and Eichele, G (1985). A quantitative analysis of the effect of all-trans-retinoic acid on the pattern of chick wing development. Dev. Biol 109, 82-95.[Medline]

Vogel, A., Rodriguez, C. and Izpisua-Belmonte, J. C (1996). Involvement of FGF-8 in initiation, outgrowth and patterning of the vertebrate limb. Development 209, 1737-1750.

Vogel, A., Rodriguez, C., Warnken, W. and Izpisua-Belmonte, J.-C (1995). Dorsal cell fate specified by chick Lmx-1 during vertebrate limb development. Nature 378, 716-720.[Medline]

Vogel, A. and Tickle, C (1993). FGF-4 maintains polarizing activity of posterior limb bud cells in vivo and vitro. Development 119, 199-206.[Abstract]

Wanek, N., Gardiner, D. M., Muneoka, K. and Bryant, S. V (1991). Conversion by retinoic acid of anterior cells into ZPA cells in the chick wing bud. Nature 350, 81-83.[Medline]

Wilde, S. M., Wedden, S. E. and Tickle, C (1987). Retinoids reprogramme pre-bud mesenchyme to give changes in limb pattern. Development 100, 723-733.[Abstract/Free Full Text]

Yang, Y. and Niswander, L (1995). Interaction between the signaling moleculesWNT7a and SHH during verterbrate limb development: dorsal signals regulate anteroposterior patterning. Cell 80, 939-947.[Medline]

Yang, Y., Drossopoulou, G., Chuang, P. T., Duprez, D., Marti, E., Bumcrot, D., Vargesson, N., Clarke, J., Niswander, L., McMahon, A. and Tickle, C (1997). Relationship between dose, distance and time in Sonic Hedgehog-mediated regulation of anterior-posteior polarity in the chick limb. Development 124, 4393-4404.[Abstract]

Yonei, S., Tamura, K., Ohsugi, K. and Hiroyuki, I (1995). MRC-5 cells induce the AER prior to the duplicated pattern formation in chick limb bud. Dev. Biol 170, 542-552.[Medline]

Zelster, L., Desplan, C. and Nathaniel, H (1996). Hoxb-13 : a new Hox gene in a distinct region of the HOXB cluster maintains colinearity. Development 122, 2475-2484.[Abstract]

CiteULike

Complore

Connotea

Del.icio.us Add to Digg

Digg

Technorati

Twitter What's this?

This article has been cited by other articles:

J. A. Gillis, R. D. Dahn, and N. H. Shubin
Shared developmental mechanisms pattern the vertebrate gill arch and paired fin skeletons
PNAS, April 7, 2009; 106(14): 5720 - 5724.
[Abstract] [Full Text] [PDF]

J. L. Galloway and C. J. Tabin
Classic limb patterning models and the work of Dennis Summerbell
Development, August 15, 2008; 135(16): 2683 - 2687.
[Abstract] [Full Text] [PDF]

T. D. Capellini, G. Di Giacomo, V. Salsi, A. Brendolan, E. Ferretti, D. Srivastava, V. Zappavigna, and L. Selleri
Pbx1/Pbx2 requirement for distal limb patterning is mediated by the hierarchical control of Hox gene spatial distribution and Shh expression
Development, June 1, 2006; 133(11): 2263 - 2273.
[Abstract] [Full Text] [PDF]

M. A. Ros, R. D. Dahn, M. Fernandez-Teran, K. Rashka, N. C. Caruccio, S. M. Hasso, J. J. Bitgood, J. J. Lancman, and J. F. Fallon
The chick oligozeugodactyly (ozd) mutant lacks sonic hedgehog function in the limb
Development, February 1, 2003; 130(3): 527 - 537.
[Abstract] [Full Text] [PDF]

K. Niederreither, J. Vermot, B. Schuhbaur, P. Chambon, and P. Dolle
Embryonic retinoic acid synthesis is required for forelimb growth and anteroposterior patterning in the mouse
Development, August 1, 2002; 129(15): 3563 - 3574.
[Abstract] [Full Text] [PDF]

M. Fernandez-Teran, M. E. Piedra, I. S. Kathiriya, D. Srivastava, J. C. Rodriguez-Rey, and M. A. Ros
Role of dHAND in the anterior-posterior polarization of the limb bud: implications for the Sonic hedgehog pathway
Development, May 15, 2000; 127(10): 2133 - 2142.
[Abstract] [PDF]

A. Tavares, T Tsukui, and J. Izpisua Belmonte
Evidence that members of the Cut/Cux/CDP family may be involved in AER positioning and polarizing activity during chick limb development
Development, January 12, 2000; 127(23): 5133 - 5144.
[Abstract] [PDF]

M Tanaka, M. Cohn, P Ashby, M Davey, P Martin, and C Tickle
Distribution of polarizing activity and potential for limb formation in mouse and chick embryos and possible relationships to polydactyly
Development, January 9, 2000; 127(18): 4011 - 4021.
[Abstract] [PDF]

J Charite, D. McFadden, and E. Olson
The bHLH transcription factor dHAND controls Sonic hedgehog expression and establishment of the zone of polarizing activity during limb development
Development, January 6, 2000; 127(11): 2461 - 2470.
[Abstract] [PDF]

A Zuniga and R Zeller
Gli3 (Xt) and formin (ld) participate in the positioning of the polarising region and control of posterior limb-bud identity
Development, January 1, 1999; 126(1): 13 - 21.
[Abstract] [PDF]

G. R. Martin
The roles of FGFs in the early development of vertebrate�limbs
Genes & Dev., June 1, 1998; 12(11): 1571 - 1586.
[Full Text]

M Takahashi, K Tamura, D Buscher, H Masuya, S Yonei-Tamura, K Matsumoto, M Naitoh-Matsuo, J Takeuchi, K Ogura, T Shiroishi, et al.
The role of Alx-4 in the establishment of anteroposterior polarity during vertebrate limb development
Development, January 11, 1998; 125(22): 4417 - 4425.
[Abstract] [PDF]

S Qu, S. Tucker, J. Ehrlich, J. Levorse, L. Flaherty, R Wisdom, and T. Vogt
Mutations in mouse Aristaless-like4 cause Strong's luxoid polydactyly
Development, January 7, 1998; 125(14): 2711 - 2721.
[Abstract] [PDF]

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 Stratford, T. H.

Articles by Maden, M.

Search for Related Content

PubMed

PubMed Citation

Articles by Stratford, T. H.

Articles by Maden, M.

Social Bookmarking

What's this?

				J. L. Galloway and C. J. Tabin Classic limb patterning models and the work of Dennis Summerbell Development, August 15, 2008; 135(16): 2683 - 2687. [Abstract] [Full Text] [PDF]

				T. D. Capellini, G. Di Giacomo, V. Salsi, A. Brendolan, E. Ferretti, D. Srivastava, V. Zappavigna, and L. Selleri Pbx1/Pbx2 requirement for distal limb patterning is mediated by the hierarchical control of Hox gene spatial distribution and Shh expression Development, June 1, 2006; 133(11): 2263 - 2273. [Abstract] [Full Text] [PDF]

				M. A. Ros, R. D. Dahn, M. Fernandez-Teran, K. Rashka, N. C. Caruccio, S. M. Hasso, J. J. Bitgood, J. J. Lancman, and J. F. Fallon The chick oligozeugodactyly (ozd) mutant lacks sonic hedgehog function in the limb Development, February 1, 2003; 130(3): 527 - 537. [Abstract] [Full Text] [PDF]

				K. Niederreither, J. Vermot, B. Schuhbaur, P. Chambon, and P. Dolle Embryonic retinoic acid synthesis is required for forelimb growth and anteroposterior patterning in the mouse Development, August 1, 2002; 129(15): 3563 - 3574. [Abstract] [Full Text] [PDF]

				M. Fernandez-Teran, M. E. Piedra, I. S. Kathiriya, D. Srivastava, J. C. Rodriguez-Rey, and M. A. Ros Role of dHAND in the anterior-posterior polarization of the limb bud: implications for the Sonic hedgehog pathway Development, May 15, 2000; 127(10): 2133 - 2142. [Abstract] [PDF]

				A. Tavares, T Tsukui, and J. Izpisua Belmonte Evidence that members of the Cut/Cux/CDP family may be involved in AER positioning and polarizing activity during chick limb development Development, January 12, 2000; 127(23): 5133 - 5144. [Abstract] [PDF]

				M Tanaka, M. Cohn, P Ashby, M Davey, P Martin, and C Tickle Distribution of polarizing activity and potential for limb formation in mouse and chick embryos and possible relationships to polydactyly Development, January 9, 2000; 127(18): 4011 - 4021. [Abstract] [PDF]

				J Charite, D. McFadden, and E. Olson The bHLH transcription factor dHAND controls Sonic hedgehog expression and establishment of the zone of polarizing activity during limb development Development, January 6, 2000; 127(11): 2461 - 2470. [Abstract] [PDF]

				A Zuniga and R Zeller Gli3 (Xt) and formin (ld) participate in the positioning of the polarising region and control of posterior limb-bud identity Development, January 1, 1999; 126(1): 13 - 21. [Abstract] [PDF]

				G. R. Martin The roles of FGFs in the early development of vertebrate�limbs Genes & Dev., June 1, 1998; 12(11): 1571 - 1586. [Full Text]

				M Takahashi, K Tamura, D Buscher, H Masuya, S Yonei-Tamura, K Matsumoto, M Naitoh-Matsuo, J Takeuchi, K Ogura, T Shiroishi, et al. The role of Alx-4 in the establishment of anteroposterior polarity during vertebrate limb development Development, January 11, 1998; 125(22): 4417 - 4425. [Abstract] [PDF]

				S Qu, S. Tucker, J. Ehrlich, J. Levorse, L. Flaherty, R Wisdom, and T. Vogt Mutations in mouse Aristaless-like4 cause Strong's luxoid polydactyly Development, January 7, 1998; 125(14): 2711 - 2721. [Abstract] [PDF]