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Items: 1 to 20 of 125

1.

Growth and patterning in the limb: signaling gradients make the decision.

Yang Y.

Sci Signal. 2009 Jan 13;2(53):pe3. doi: 10.1126/scisignal.253pe3. Review.

PMID:
19141858
2.

Wnt and FGF signals interact to coordinate growth with cell fate specification during limb development.

ten Berge D, Brugmann SA, Helms JA, Nusse R.

Development. 2008 Oct;135(19):3247-57. doi: 10.1242/dev.023176.

3.

Shh pathway activation is present and required within the vertebrate limb bud apical ectodermal ridge for normal autopod patterning.

Bouldin CM, Gritli-Linde A, Ahn S, Harfe BD.

Proc Natl Acad Sci U S A. 2010 Mar 23;107(12):5489-94. doi: 10.1073/pnas.0912818107. Epub 2010 Mar 8.

4.

[Examination of models for vertebrate limb development].

Kawakami Y, Noji S.

Tanpakushitsu Kakusan Koso. 2003 Jan;48(1):40-8. Review. Japanese. No abstract available.

PMID:
12607263
5.

Characterization of a novel ectodermal signaling center regulating Tbx2 and Shh in the vertebrate limb.

Nissim S, Allard P, Bandyopadhyay A, Harfe BD, Tabin CJ.

Dev Biol. 2007 Apr 1;304(1):9-21. Epub 2006 Dec 9.

6.

Vertebrate limb development: from Harrison's limb disk transplantations to targeted disruption of Hox genes.

Koussoulakos S.

Anat Embryol (Berl). 2004 Dec;209(2):93-105. Epub 2004 Nov 19. Review.

PMID:
15597188
7.

The recombinant limb as a model for the study of limb patterning, and its application to muscle development.

Fernandez-Teran M, Piedra ME, Ros MA, Fallon JF.

Cell Tissue Res. 1999 Apr;296(1):121-9. Review.

PMID:
10199972
8.

Sp6 and Sp8 transcription factors control AER formation and dorsal-ventral patterning in limb development.

Haro E, Delgado I, Junco M, Yamada Y, Mansouri A, Oberg KC, Ros MA.

PLoS Genet. 2014 Aug 28;10(8):e1004468. doi: 10.1371/journal.pgen.1004468. eCollection 2014 Aug.

9.

Molecular and cellular basis of pattern formation during vertebrate limb development.

Ng JK, Tamura K, Büscher D, Izpisúa-Belmonte JC.

Curr Top Dev Biol. 1999;41:37-66. Review.

PMID:
9784972
10.

[Roles of the BMP family in pattern formation of the vertebrate limb].

Wada N, Nohno T, Noji S.

Clin Calcium. 2006 May;16(5):773-80. Review. Japanese.

PMID:
16679618
11.

[Control of the positioning of the vertebrate limb axes during development].

Catala M.

Morphologie. 2000 Jun;84(265):17-23. Review. French.

PMID:
11048294
12.

BMPR-IA signaling is required for the formation of the apical ectodermal ridge and dorsal-ventral patterning of the limb.

Ahn K, Mishina Y, Hanks MC, Behringer RR, Crenshaw EB 3rd.

Development. 2001 Nov;128(22):4449-61.

13.

Extrinsic influences on limb muscle organisation.

Blagden CS, Hughes SM.

Cell Tissue Res. 1999 Apr;296(1):141-50. Review.

PMID:
10199974
14.
15.

The role of Engrailed in establishing the dorsoventral axis of the chick limb.

Logan C, Hornbruch A, Campbell I, Lumsden A.

Development. 1997 Jun;124(12):2317-24.

16.

Distinct WNT pathways regulating AER formation and dorsoventral polarity in the chick limb bud.

Kengaku M, Capdevila J, Rodriguez-Esteban C, De La Peña J, Johnson RL, Izpisúa Belmonte JC, Tabin CJ.

Science. 1998 May 22;280(5367):1274-7.

17.

Dorso-ventral limb polarity and origin of the ridge: on the fringe of independence?

Zeller R, Duboule D.

Bioessays. 1997 Jul;19(7):541-6. Review.

PMID:
9230686
18.

In the limb AER Bmp2 and Bmp4 are required for dorsal-ventral patterning and interdigital cell death but not limb outgrowth.

Maatouk DM, Choi KS, Bouldin CM, Harfe BD.

Dev Biol. 2009 Mar 15;327(2):516-23. doi: 10.1016/j.ydbio.2009.01.004. Epub 2009 Jan 13.

19.

The Apical Ectodermal Ridge: morphological aspects and signaling pathways.

Fernandez-Teran M, Ros MA.

Int J Dev Biol. 2008;52(7):857-71. doi: 10.1387/ijdb.072416mf. Review.

20.

Wnt10a is involved in AER formation during chick limb development.

Narita T, Sasaoka S, Udagawa K, Ohyama T, Wada N, Nishimatsu S, Takada S, Nohno T.

Dev Dyn. 2005 Jun;233(2):282-7.

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