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Items: 1 to 20 of 279

1.

Kremen proteins interact with Dickkopf1 to regulate anteroposterior CNS patterning.

Davidson G, Mao B, del Barco Barrantes I, Niehrs C.

Development. 2002 Dec;129(24):5587-96. Erratum in: Development. 2003 Jan;130(2):425..

2.

Kremen2 modulates Dickkopf2 activity during Wnt/LRP6 signaling.

Mao B, Niehrs C.

Gene. 2003 Jan 2;302(1-2):179-83.

PMID:
12527209
3.

Kremen proteins are Dickkopf receptors that regulate Wnt/beta-catenin signalling.

Mao B, Wu W, Davidson G, Marhold J, Li M, Mechler BM, Delius H, Hoppe D, Stannek P, Walter C, Glinka A, Niehrs C.

Nature. 2002 Jun 6;417(6889):664-7. Epub 2002 May 26.

PMID:
12050670
4.

The role of Xenopus dickkopf1 in prechordal plate specification and neural patterning.

Kazanskaya O, Glinka A, Niehrs C.

Development. 2000 Nov;127(22):4981-92.

5.

LDL-receptor-related protein 6 is a receptor for Dickkopf proteins.

Mao B, Wu W, Li Y, Hoppe D, Stannek P, Glinka A, Niehrs C.

Nature. 2001 May 17;411(6835):321-5.

PMID:
11357136
6.

Zebrafish Dkk1, induced by the pre-MBT Wnt signaling, is secreted from the prechordal plate and patterns the anterior neural plate.

Shinya M, Eschbach C, Clark M, Lehrach H, Furutani-Seiki M.

Mech Dev. 2000 Nov;98(1-2):3-17.

7.
8.

Mutual antagonism between dickkopf1 and dickkopf2 regulates Wnt/beta-catenin signalling.

Wu W, Glinka A, Delius H, Niehrs C.

Curr Biol. 2000 Dec 14-28;10(24):1611-4.

9.

LDL-receptor-related proteins in Wnt signal transduction.

Tamai K, Semenov M, Kato Y, Spokony R, Liu C, Katsuyama Y, Hess F, Saint-Jeannet JP, He X.

Nature. 2000 Sep 28;407(6803):530-5.

PMID:
11029007
10.

Wise, a context-dependent activator and inhibitor of Wnt signalling.

Itasaki N, Jones CM, Mercurio S, Rowe A, Domingos PM, Smith JC, Krumlauf R.

Development. 2003 Sep;130(18):4295-305.

11.

XIdax, an inhibitor of the canonical Wnt pathway, is required for anterior neural structure formation in Xenopus.

Michiue T, Fukui A, Yukita A, Sakurai K, Danno H, Kikuchi A, Asashima M.

Dev Dyn. 2004 May;230(1):79-90.

12.

Wnt8 is required in lateral mesendodermal precursors for neural posteriorization in vivo.

Erter CE, Wilm TP, Basler N, Wright CV, Solnica-Krezel L.

Development. 2001 Sep;128(18):3571-83.

13.

Frizzled-8 is expressed in the Spemann organizer and plays a role in early morphogenesis.

Deardorff MA, Tan C, Conrad LJ, Klein PS.

Development. 1998 Jul;125(14):2687-700.

14.

Dickkopf1 and the Spemann-Mangold head organizer.

Niehrs C, Kazanskaya O, Wu W, Glinka A.

Int J Dev Biol. 2001;45(1):237-40. Review.

15.
16.

Analysis of Wnt8 for neural posteriorizing factor by identifying Frizzled 8c and Frizzled 9 as functional receptors for Wnt8.

Momoi A, Yoda H, Steinbeisser H, Fagotto F, Kondoh H, Kudo A, Driever W, Furutani-Seiki M.

Mech Dev. 2003 Apr;120(4):477-89.

18.

The Sp1-related transcription factors sp5 and sp5-like act downstream of Wnt/beta-catenin signaling in mesoderm and neuroectoderm patterning.

Weidinger G, Thorpe CJ, Wuennenberg-Stapleton K, Ngai J, Moon RT.

Curr Biol. 2005 Mar 29;15(6):489-500.

19.

The Wnt/beta-catenin pathway posteriorizes neural tissue in Xenopus by an indirect mechanism requiring FGF signalling.

Domingos PM, Itasaki N, Jones CM, Mercurio S, Sargent MG, Smith JC, Krumlauf R.

Dev Biol. 2001 Nov 1;239(1):148-60.

20.

Kermit, a frizzled interacting protein, regulates frizzled 3 signaling in neural crest development.

Tan C, Deardorff MA, Saint-Jeannet JP, Yang J, Arzoumanian A, Klein PS.

Development. 2001 Oct;128(19):3665-74.

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