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Items: 1 to 20 of 83

1.

In utero complementation of a neural crest-derived melanocyte defect using cell directed gene transfer.

Dunn KJ, Incao A, Watkins-Chow D, Li Y, Pavan WJ.

Genesis. 2001 Jun;30(2):70-6.

PMID:
11416866
2.
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4.

Complementation of melanocyte development in SOX10 mutant neural crest using lineage-directed gene transfer.

Hou L, Loftus SK, Incao A, Chen A, Pavan WJ.

Dev Dyn. 2004 Jan;229(1):54-62.

5.

A Cre-loxP-based mouse model for conditional somatic gene expression and knockdown in vivo by using avian retroviral vectors.

Seidler B, Schmidt A, Mayr U, Nakhai H, Schmid RM, Schneider G, Saur D.

Proc Natl Acad Sci U S A. 2008 Jul 22;105(29):10137-42. doi: 10.1073/pnas.0800487105. Epub 2008 Jul 11.

6.

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.

7.

A novel Flk1-TVA transgenic mouse model for gene delivery to angiogenic vasculature.

Vervoort VS, Lu M, Valencia F, Lesperance J, Breier G, Oshima R, Pasquale EB.

Transgenic Res. 2008 Jun;17(3):403-15. Epub 2007 Nov 20.

PMID:
18027100
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10.

The c-myc and PyMT oncogenes induce different tumor types in a somatic mouse model for pancreatic cancer.

Lewis BC, Klimstra DS, Varmus HE.

Genes Dev. 2003 Dec 15;17(24):3127-38. Epub 2003 Dec 17.

11.

WNT1 and WNT3a promote expansion of melanocytes through distinct modes of action.

Dunn KJ, Brady M, Ochsenbauer-Jambor C, Snyder S, Incao A, Pavan WJ.

Pigment Cell Res. 2005 Jun;18(3):167-80.

PMID:
15892713
12.

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.

13.

Expression of transduced genes in mice generated by infecting blastocysts with avian leukosis virus-based retroviral vectors.

Federspiel MJ, Swing DA, Eagleson B, Reid SW, Hughes SH.

Proc Natl Acad Sci U S A. 1996 May 14;93(10):4931-6.

14.

RCAS/SCL-TVA animal model allows targeted delivery of polyoma middle T oncogene to vascular endothelial progenitors in vivo and results in hemangioma development.

Sausville J, Molinolo AA, Cheng X, Frampton J, Takebe N, Gutkind JS, Feldman RA.

Clin Cancer Res. 2008 Jun 15;14(12):3948-55. doi: 10.1158/1078-0432.CCR-07-5152.

15.

Development of a flexible and specific gene delivery system for production of murine tumor models.

Fisher GH, Orsulic S, Holland E, Hively WP, Li Y, Lewis BC, Williams BO, Varmus HE.

Oncogene. 1999 Sep 20;18(38):5253-60. Review.

16.

Dlx5 regulation of mouse osteoblast differentiation mediated by avian retrovirus vector.

Erceg I, Tadić T, Kronenberg MS, Marijanović I, Lichtler AC.

Croat Med J. 2003 Aug;44(4):407-11.

17.
18.

Production of avian retroviruses and tissue-specific somatic retroviral gene transfer in vivo using the RCAS/TVA system.

von Werder A, Seidler B, Schmid RM, Schneider G, Saur D.

Nat Protoc. 2012 May 24;7(6):1167-83. doi: 10.1038/nprot.2012.060.

PMID:
22635109
19.

Neural crest progenitors of the melanocyte lineage: coat colour patterns revisited.

Wilkie AL, Jordan SA, Jackson IJ.

Development. 2002 Jul;129(14):3349-57.

20.

Both Notch1 and Notch2 contribute to the regulation of melanocyte homeostasis.

Kumano K, Masuda S, Sata M, Saito T, Lee SY, Sakata-Yanagimoto M, Tomita T, Iwatsubo T, Natsugari H, Kurokawa M, Ogawa S, Chiba S.

Pigment Cell Melanoma Res. 2008 Feb;21(1):70-8. doi: 10.1111/j.1755-148X.2007.00423.x.

PMID:
18353145

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