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Alison, M. and Sarraf, C (1998). Hepatic stem cells. J. Hepatol 29, 676-682.[Medline]

Brockes, J. P (1997). Amphibian limb regeneration: rebuilding a complex structure. Science 276, 81-87.[Abstract/Free Full Text]

Goodrich, H. B., Marzullo, C. M. and Bronson, W. H (1954). An analysis of the formation of color patterns in two fresh-water fish. J. Exp. Zool 125, 487-505.

Goodrich, H. B. and Nichols, R (1931). The development and regeneration of the color pattern in Brachydanio rerio. J. Morph 52, 513-523.

Huszar, D., Sharpe, A. and Jaenicsh, R (1991). Migration and proliferation of cultured neural crest cells in W mutant neural crest chimeras. Development 112, 131-141.[Abstract]

Johnson, S. L., Africa, D., Walker, C. and Weston, J. A (1995). Genetic control of adult pigment stripe development in zebrafish. Dev. Biol 167, 27-33.[Medline]

Johnson, S. L. and Weston, J. A (1995). Temperature-sensitive mutations that cause stage specific defects in zebrafish fin regeneration. Genetics 141, 1588-1595.

Johnson, S. L., Gates, M. A., Johnson, M., Talbot, W. S., Horne, S., Baik, K., Rude, S., Wong, J. R. and Postlethwait, J. H (1996). Centromere-linkage analysis and consolidation of the zebrafish genetic map. Genetics 142, 1277-1288.[Abstract]

Johnson, S. L. and Bennett, P. J (1999). Growth control in the ontogenetic and regenerating zebrafish fin. Methods Cell Biol 59, 301-11.[Medline]

Kelsh, R.N. and Eisen, J.S (2000). The zebrafish colourless gene regulates development of non-ectomesenchymal neural crest derivatives. Development 127, 515-525.[Abstract]

Kunisada, T., Yoshida, H., Yamazaki, H., Miyamoto, A., Hemmi, H., Nishimura, E., Shultz, L. D., Nishikawa, S. and Hayashi, S (1998). Transgene expression of steel factor in the basal layer of epidermis promotes survival, proliferation, differentiation and migration of melanocyte precursors. Development 125, 2915-23.[Abstract]

Lister, J. A., Robertson, C. P., Lepage, T., Johnson, S. L. and Raible D. W (1999). nacre encodes a zebrafish microphthalmia-related protein thatregulates neural-crest-derived pigment cell fate. Development 126, 3757-3767.[Abstract]

Milos, N. and Dingle, A. D (1978). Dynamics of pigment pattern formation in the zebrafish, Brachydanio rerio. I. Establishment and regulation of the lateral line melanophore stripe during the first eight days of development. J. Exp. Zool 205, 205-216.

Morrison, S. J., Uchida, N. and Weissman, I.L (1995). The biology of hematopoeitic stem cells. Annu. Rev. Cell. Dev. Biol 11, 35-71.[Medline]

Parichy, D. M., Rawls, J. F., Pratt, S. J., Whitfield, T. T. and Johnson, S. L (1999). Zebrafish sparse corresponds to an orthologue of c- kit and is required for the morphogenesis of a subpopulation of melanocytes, but is not essential for hematopoeisis or primordial germ cell development. Development 126, 3425-3436.[Abstract]

Potten, C. S., Booth, C. and Pritchard, D. M (1997). The intestinal epithelial stem cell: the mucosal governor. Int. J. Exp. Path 78, 219-243.[Medline]

Raible, D. W. and Eisen, J. S (1996). Regulative interactions in zebrafish neural crest. Development 122, 501-507.[Abstract]

Steel, K. P., Davidson, D. R. and Jackson, I. J (1992). TRP-2/DT, a new early melanoblast marker, shows that steel growth factor (c-kit ligand) is a survival factor. Development 115, 1111-1119.[Abstract]

Streisinger, G., Singer, F., Walker, C., Knauber, D. and Dawer, N (1986). Segregation analysis and gene-centromere distances in the zebrafish. Genetics 112, 311-319.[Abstract/Free Full Text]

Thisse, C., Thisse, B., Schilling, T.F., Postlethwait, J. H (1993). Structure of the zebrafish snail1 gene and its expression in wild-type, spadetail and no tail mutant embryos. Development 119, 1203-1215.[Abstract]

Vaglia, J. L. and Hall, B. K (1999). Regulation of neural crest cell populations: occurrence, distribution and underlying mechanisms. Int. J. Dev. Biol 43, 95-110.[Medline]

Wehrle-Haller, B. and Weston, J.A (1995). Soluble and cell-bound forms of steel factor activity play distinct roles in melanocyte precursor dispersal and survival on the lateral neural crest pathway. Development 121, 731-742.[Abstract]
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