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Items: 1 to 20 of 495

1.

Cell-autonomous and cell non-autonomous signaling through endothelin receptor B during melanocyte development.

Hou L, Pavan WJ, Shin MK, Arnheiter H.

Development. 2004 Jul;131(14):3239-47. Epub 2004 Jun 16.

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Cooperative and indispensable roles of endothelin 3 and KIT signalings in melanocyte development.

Aoki H, Motohashi T, Yoshimura N, Yamazaki H, Yamane T, Panthier JJ, Kunisada T.

Dev Dyn. 2005 Jun;233(2):407-17.

4.

Melanocyte development in vivo and in neural crest cell cultures: crucial dependence on the Mitf basic-helix-loop-helix-zipper transcription factor.

Opdecamp K, Nakayama A, Nguyen MT, Hodgkinson CA, Pavan WJ, Arnheiter H.

Development. 1997 Jun;124(12):2377-86.

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Recombinase-mediated cassette exchange reveals the selective use of Gq/G11-dependent and -independent endothelin 1/endothelin type A receptor signaling in pharyngeal arch development.

Sato T, Kawamura Y, Asai R, Amano T, Uchijima Y, Dettlaff-Swiercz DA, Offermanns S, Kurihara Y, Kurihara H.

Development. 2008 Feb;135(4):755-65. doi: 10.1242/dev.012708. Epub 2008 Jan 16.

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The temporal requirement for endothelin receptor-B signalling during neural crest development.

Shin MK, Levorse JM, Ingram RS, Tilghman SM.

Nature. 1999 Dec 2;402(6761):496-501.

PMID:
10591209
11.

A mouse model of Waardenburg syndrome type 4 with a new spontaneous mutation of the endothelin-B receptor gene.

Matsushima Y, Shinkai Y, Kobayashi Y, Sakamoto M, Kunieda T, Tachibana M.

Mamm Genome. 2002 Jan;13(1):30-5.

PMID:
11773966
12.

Endothelin signalling in the development of neural crest-derived melanocytes.

Opdecamp K, Kos L, Arnheiter H, Pavan WJ.

Biochem Cell Biol. 1998;76(6):1093-9.

PMID:
10392719
13.

Mutational analysis of endothelin receptor b1 (rose) during neural crest and pigment pattern development in the zebrafish Danio rerio.

Parichy DM, Mellgren EM, Rawls JF, Lopes SS, Kelsh RN, Johnson SL.

Dev Biol. 2000 Nov 15;227(2):294-306.

14.

Mutations in microphthalmia, the mouse homolog of the human deafness gene MITF, affect neuroepithelial and neural crest-derived melanocytes differently.

Nakayama A, Nguyen MT, Chen CC, Opdecamp K, Hodgkinson CA, Arnheiter H.

Mech Dev. 1998 Jan;70(1-2):155-66.

PMID:
9510032
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Characteristic defects in neural crest cell-specific Galphaq/Galpha11- and Galpha12/Galpha13-deficient mice.

Dettlaff-Swiercz DA, Wettschureck N, Moers A, Huber K, Offermanns S.

Dev Biol. 2005 Jun 1;282(1):174-82.

17.

Genetic evidence does not support direct regulation of EDNRB by SOX10 in migratory neural crest and the melanocyte lineage.

Hakami RM, Hou L, Baxter LL, Loftus SK, Southard-Smith EM, Incao A, Cheng J, Pavan WJ.

Mech Dev. 2006 Feb;123(2):124-34. Epub 2006 Jan 18.

18.

[Phenotypic plasticity of neural crest-derived melanocytes and Schwann cells].

Dupin E.

Biol Aujourdhui. 2011;205(1):53-61. doi: 10.1051/jbio/2011008. Epub 2011 Apr 19. Review. French.

PMID:
21501576
19.

Multiple roles for endothelin in melanocyte development: regulation of progenitor number and stimulation of differentiation.

Reid K, Turnley AM, Maxwell GD, Kurihara Y, Kurihara H, Bartlett PF, Murphy M.

Development. 1996 Dec;122(12):3911-9.

20.

Microphthalmia transcription factor induces both retinal pigmented epithelium and neural crest melanocytes from neuroretina cells.

Planque N, Raposo G, Leconte L, Anezo O, Martin P, Saule S.

J Biol Chem. 2004 Oct 1;279(40):41911-7. Epub 2004 Jul 23.

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