nacre encodes a zebrafish microphthalmia-related protein that regulates neural-crest-derived pigment cell fate

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Aberdam, E., Bertolotto, C., Sviderskaya, E. V., de Thillot, V., Hemesath, T. J., Fisher, D. E., Bennett, D. C., Ortonne, J.-P. and Ballotti, R (1998). Involvement of microphthalmia in the inhibition of melanocyte lineage differentiation and of melanogenesis by agouti signal protein. J. Biol. Chem 273, 19560-19565.[Abstract/Free Full Text]

Amae, S., Fuse, N., Yasumoto, K., Sato, S., Yajima, I., Yamamoto, H., Udono, T., Durlu, Y. K., Tamai, M., Takahashi, K. et al (1998). Identification of a novel isoform of microphthalmia-associated transcription factor that is enriched in retinal pigment epithelium. Biochem. Biophys. Res. Comm 247, 710-715.[Medline]

Amores, A., Force, A., Yan, Y.-L., Joly, L., Amemiya, C., Fritz, A., Ho, R. K., Langeland, J., Prince, V., Wang, Y.-L. et al (1998). Zebrafish hox clusters and vertebrate genome evolution. Science 282, 1711-1714.[Abstract/Free Full Text]

Appel, B. and Eisen, J. S (1998). Regulation of neuronal specification in the zebrafish spinal cord by Delta function. Development 125, 371-380.[Abstract]

Bagnara, J. T., Matsumoto, J., Ferris, W., Frost, S. K., Turner, W. A., Jr., Tchen, T. T. and Taylor, J. D (1979). Common origin of pigment cells. Science 203, 410-415.[Abstract/Free Full Text]

Baynash, A. G., Hosoda, K., Giaid, A., Richardson, J. A., Emoto, N., Hammer, R. E. and Yanagisawa, M (1994). Interaction of endothelin-3 with endothelin-B receptor is essential for development of epidermal melanocytes and enteric neurons. Cell 79, 1277-1285.[Medline]

Chakrabarti, S., Streisinger, G., Singer, F. and Walker, C (1983). Frequency of-ray induced specific locus and recessive lethal mutations in mature germ cells of the zebrafish, brachydanio rerio. Genetics 103, 109-123.[Abstract/Free Full Text]

Dorsky, R. I., Moon, R. T. and Raible, D. W (1998). Control of neural crest cell fate by the Wnt signalling pathway. Nature 396, 370-373.[Medline]

Epstein, D. J., Vekemans, M. and Gros, P (1991). splotch (Sp2H), a mutation affecting development of the mouse neural tube, shows a deletion within the paired homeodomain of Pax-3. Cell 67, 767-774.[Medline]

Feldman, B., Gates, M. A., Egan, E. S., Dougan, S. T., Rennebeck, G., Sirotkin, H. I., Schier, A. F. and Talbot, W. S (1998). Zebrafish organizer development and germ-layer formation require nodal-related signals. Nature 395, 181-185.[Medline]

Fleischman, R. A (1993). From white spots to stem cells: the role of the Kit receptor in mammalian development. Trends Genet 9, 285-289.[Medline]

Force, A., Lynch, M., Pickett, F. B., Amores, A., Yan, Y.-l. and Postlethwait, J (1999). Preservation of duplicate genes by complementary, degenerative mutations. Genetics 151, 1531-1545.[Abstract/Free Full Text]

Furutani-Seiki, M., Jiang, Y. J., Brand, M., Heisenberg, C. P., Houart, C., Beuchle, D., van Eeden, F. J., Granato, M., Haffter, P., Hammerschmidt, M. et al (1996). Neural degeneration mutants in the zebrafish, Danio rerio. Development 123, 229-239.[Abstract]

Hemesath, T. J., Price, E. R., Takemoto, C., Badalian, T. and Fisher, D. E (1998). MAP kinase links the transcription factor Microphthalmia to c-Kit signalling in melanocytes. Nature 391, 298-301.[Medline]

Hemesath, T. J., Steingrimsson, E., McGill, G., Hansen, M. J., Vaught, J., Hodgkinson, C. A., Arnheiter, H., Copeland, N. G., Jenkins, N. A. and Fisher, D. E (1994). microphthalmia , a critical factor in melanocyte development, defines a discrete transcription factor family. Genes Dev 8, 2770-2780.[Abstract/Free Full Text]

Henion, P. D. and Weston, J. A (1997). Timing and pattern of cell fate restrictions in the neural crest lineage. Development 124, 4351-4359.[Abstract]

Ho, R. K. and Kane, D. A (1990). Cell-autonomous action of zebrafish spt-1 mutation in specific mesodermal precursors. Nature 348, 728-730.[Medline]

Hodgkinson, C. A., Moore, K. J., Nakayama, A., Steingrimsson, E., Copeland, N. G., Jenkins, N. A. and Arnheiter, H (1993). Mutations at the mouse microphthalmia locus are associated with defects in a gene encoding a novel basic-helix-loop-helix-zipper protein. Cell 74, 395-404.[Medline]

Hodgkinson, C. A., Nakayama, A., Li, H., Swenson, L.-B., Opdecamp, K., Asher, J. H., Jr., Arnheiter, H. and Glaser, T (1998). Mutation at the anophthalmic white locus in Syrian hamsters: haploinsufficiency in the Mitf gene mimics human Waardenburg syndrome type 2. Hum. Mol. Genet 7, 703-708.[Abstract/Free Full Text]

Hosoda, K., Hammer, R. E., Richardson, J. A., Baynash, A. G., Cheung, J. C., Giaid, A. and Yanagisawa, M (1994). Targeted and natural (piebald-lethal) mutations of endothelin-B receptor gene produce megacolon associated with spotted coat color in mice. Cell 79, 1267-1276.[Medline]

Ide, H (1978). Transformation of amphibian xanthophores into melanophores in clonal culture. J. Exp. Zool 203, 287-294.

Ide, H. and Hama, T (1976). Transformation of amphibian iridophores into melanophores in clonal culture. Dev. Biol 53, 297-302.[Medline]

Johnson, S. L., Africa, D., Horne, S. and Postlethwait, J. H (1995). Half-tetrad analysis in zebrafish: mapping the ros mutation and the centromere of Linkage Group I. Genetics 139, 1727-1735.[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., 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]

Kelsh, R. N., Brand, M., Jiang, Y. J., Heisenberg, C. P., Lin, S., Haffter, P., Odenthal, J., Mullins, M. C., van Eeden, F. J., Furutani-Seiki, M. et al (1996). Zebrafish pigmentation mutations and the processes of neural crest development. Development 123, 369-389.[Abstract]

Kimmel, C. B., Ballard, W. W., Kimmel, S. R., Ullman, B. and Schilling, T. F (1995). Stages of embryonic development of the zebrafish. Dev. Dyn 203, 253-310.[Medline]

Kreitner, P. C (1957). Linkage studies in a new black-eyed white mutation in the house mouse (not W ). J. Hered 48, 300-304.[Free Full Text]

Kunkel, T. A., Bebenek, K. and McClary, J (1991). Efficient site-directed mutagenesis using uracil-containing DNA. Methods Enzymol 204, 125-139.[Medline]

Le Douarin, N. M., Dupin, E. and Ziller, C (1994). Genetic and epigenetic control in neural crest development. Curr. Opin. Genet. Dev 4, 685-695.[Medline]

Lee, J. E., Hollenberg, S. M., Snider, L., Turner, D. L., Lipnick, N. and Weintraub, H (1995). Conversion of Xenopus ectoderm into neurons by NeuroD, a basic helix-loop-helix protein. Science 268, 836-844.[Abstract/Free Full Text]

Malicki, J., Neuhauss, S. C. F., Schier, A. F., Solnica-Krezel, L., Stemple, D. L., Stainier, D. Y. R., Abdelilah, S., Zwartkruis, F., Rangini, Z. and Driever, W (1996). Mutations affecting development of the zebrafish retina. Development 123, 263-273.[Abstract]

Matsumoto, J., Wada, K. and Akiyama, T (1989). Neural crest cell differentiation and carcinogenesis: capability of goldfish erythrophoroma cells for multiple differentiation and clonal polymorphism in their melanogenic variants. J. Invest. Dermatol 92, 255-.

Mochii, M., Mazaki, Y., Mizuno, N., Hayashi, H. and Eguchi, G (1998). Role of Mitf in differentiation and transdifferentiation of chicken pigmented epithelial cell. Dev. Biol 193, 47-62.[Medline]

Mochii, M., Ono, T., Matsubara, Y. and Eguchi, G (1998). Spontaneous differentiation of quail pigmented epithelial cell is accompanied by a mutation in the Mitf gene. Dev. Biol 196, 145-159.[Medline]

Moore, K. J (1995). Insight into the microphthalmia gene. Trends Genet 11, 442-448.[Medline]

Nornes, S., Clarkson, M., Mikkola, I., Pedersen, M., Bardsley, A., Martinez, J. P., Krauss, S. and Johansen, T (1998). Zebrafish contain two pax6 genes involved in eye development. Mech. Dev 77, 185-196.[Medline]

Opdecamp, K., Nakayama, A., Nguyen, M.-T. T., Hodgkinson, C. A., Pavan, W. J. and Arnheiter, H (1997). Melanocyte development in vivo and in neural crest cell cultures: crucial dependence on the Mitf basic-helix-loop-helix-zipper transcription factor. Development 124, 2377-2386.[Abstract]

Opdecamp, K., Vanvooren, P., Riviere, M., Arnheiter, H., Motta, R., Szpirer, J. and Szpirer, C (1998). The rat microphthalmia-associated transcription factor gene ( Mitf ) maps at 4q34-q31 and is mutated in the mib rats. Mamm. Genome 9, 617-621.[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 hematopoiesis or primordial germ cell development. Development 126, 3425-3436.[Abstract]

Price, E. R., Ding, H.-F., Badalian, T., Bhattacharya, S., Takemoto, C., Yao, T.-P., Hemesath, T. J. and Fisher, D. E (1998). Lineage-specific signaling in melanocytes. J. Biol. Chem 273, 17983-17986.[Abstract/Free Full Text]

Raible, D. W. and Eisen, J. S (1994). Restriction of neural crest cell fate in the trunk of the embryonic zebrafish. Development 120, 495-503.[Abstract]

Raible, D. W., Wood, A., Hodsdon, W., Henion, P. D., Weston, J. A. and Eisen, J. S (1992). Segregation and early dispersal of neural crest cells in the embryonic zebrafish. Dev. Dyn 195, 29-42.[Medline]

Sato, S., Roberts, K., Gambino, G., Cook, A., Kouzarides, T. and Goding,C. R (1997). CBP/p300 as a co-factor for the Microphthalmia transcription factor. Oncogene 14, 3083-3092.[Medline]

Schilling, T. F. and Kimmel, C. B (1994). Segment and cell type lineage restrictions during pharyngeal arch development in the zebrafish embryo. Development 120, 483-494.[Abstract]

Shoji, W., Yee, C. S. and Kuwada, J. Y (1998). Zebrafish semaphorin Z1a collapses specific growth cones and alters their pathway in vivo. Development 125, 1275-1283.[Abstract]

Solnica-Krezel, L., Schier, A. F. and Driever, W (1994). Efficient recovery of ENU-induced mutations from the zebrafish germline. Genetics 136, 1401-1420.[Abstract]

Southard-Smith, E. M., Kos, L. and Pavan, W. J (1998). Sox10 mutation disrupts neural crest development in Dom Hirschsprung mouse model. Nat. Genet 18, 60-64.[Medline]

Steingrimsson, E., Favor, J., Ferre-D'Amare, A. F., Copeland, N. G. and Jenkins, N. A (1998). Mitfmi-enu122 is a missense mutation in the HLH dimerization domain. Mamm. Genome 9, 250-252.[Medline]

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

Streisinger, G., Walker, C., Dower, N., Knauber, D. and Singer, F (1981). Production of clones of homozygous diploid zebra fish ( Brachydanio rerio ). Nature 291, 293-296.[Medline]

Tachibana, M., Perez-Jurado, L. A., Nakayama, A., Hodgkinson, C. A., Li, X., Schneider, M., Miki, T., Fex, J., Francke, U. and Arnheiter, H (1994). Cloning of MITF , the human homolog of the mouse microphthalmia gene and assignment to chromosome 3p14.1-p12.3. Hum. Mol. Genet 3, 553-557.[Abstract/Free Full Text]

Tachibana, M., Takeda, K., Nobukuni, Y., Urabe, K., Long, J. E., Meyers, K. A., Aaronson, S. A. and Miki, T (1996). Ectopic expression of MITF , a gene for Waardenburg syndrome type 2, converts fibroblasts to cells with melanocyte characteristics. Nat. Genet 14, 50-54.[Medline]

Tassabehji, M., Newton, V. E. and Read, A. P (1994). Waardenburg syndrome type 2 caused by mutations in the human microphthalmia ( MITF ) gene. Nat. Genet 8, 251-255.[Medline]

Thisse, C., Thisse, B., Schilling, T. F. and 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]

Tsujimura, T., Morii, E., Nozaki, M., Hashimoto, K., Moriyama, Y., Takebayashi, K., Kondo, T., Kanakura, Y. and Kitamura, Y (1996). Involvement of transcription factor encoded by the mi locus in the expression of c- kit receptor tyrosine kinase in cultured mast cells of mice. Blood 88, 1225-1233.[Abstract/Free Full Text]

Watanabe, A., Takeda, K., Ploplis, B. and Tachibana, M (1998). Epistatic relationship between Waardenburg syndrome genes MITF and PAX3. Nat. Genet 18, 283-286.[Medline]

Weintraub, H., Davis, R., Tapscott, S., Thayer, M., Krause, M., Benezra, R., Blackwell, T. K., Turner, D., Rupp, R., Hollenberg, S. et al (1991). The MyoD gene family: nodal point during specification of the muscle cell lineage. Science 251, 761-766.[Abstract/Free Full Text]

Wittbrodt, J., Meyer, A. and Schartl, M (1998). More genes in fish?. BioEssays 20, 511-515.

Yasumoto, K., Yokoyama, K., Takahashi, K., Tomita, Y. and Shibahara, S (1997). Functional analysis of microphthalmia-associated transcription factor in pigment cell-specific transcription of the human tyrosinase family genes. J. Biol. Chem 272, 503-509.[Abstract/Free Full Text]

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Articles by Lister, J. A.

Articles by Raible, D. W.

				R. E. Engeszer, G. Wang, M. J. Ryan, and D. M. Parichy Sex-specific perceptual spaces for a vertebrate basal social aggregative behavior PNAS, January 22, 2008; 105(3): 929 - 933. [Abstract] [Full Text] [PDF]

				M. Yamaguchi, E. Yoshimoto, and S. Kondo Pattern regulation in the stripe of zebrafish suggests an underlying dynamic and autonomous mechanism PNAS, March 20, 2007; 104(12): 4790 - 4793. [Abstract] [Full Text] [PDF]

				V. Svetic, G. E. Hollway, S. Elworthy, T. R. Chipperfield, C. Davison, R. J. Adams, J. S. Eisen, P. W. Ingham, P. D. Currie, and R. N. Kelsh Sdf1a patterns zebrafish melanophores and links the somite and melanophore pattern defects in choker mutants Development, March 1, 2007; 134(5): 1011 - 1022. [Abstract] [Full Text] [PDF]

				C.-T. Yang and S. L. Johnson Small molecule-induced ablation and subsequent regeneration of larval zebrafish melanocytes Development, September 15, 2006; 133(18): 3563 - 3573. [Abstract] [Full Text] [PDF]

				L. Hou, H. Arnheiter, and W. J. Pavan Interspecies difference in the regulation of melanocyte development by SOX10 and MITF PNAS, June 13, 2006; 103(24): 9081 - 9085. [Abstract] [Full Text] [PDF]

				Y.-J. Won, Y. Wang, A. Sivasundar, J. Raincrow, and J. Hey Nuclear Gene Variation and Molecular Dating of the Cichlid Species Flock of Lake Malawi Mol. Biol. Evol., April 1, 2006; 23(4): 828 - 837. [Abstract] [Full Text] [PDF]

				J. Pietsch, J.-M. Delalande, B. Jakaitis, J. D. Stensby, S. Dohle, W. S. Talbot, D. W. Raible, and I. T. Shepherd lessen encodes a zebrafish trap100 required for enteric nervous system development Development, February 1, 2006; 133(3): 395 - 406. [Abstract] [Full Text] [PDF]

				S.-K. Hong, C. E. Haldin, N. D. Lawson, B. M. Weinstein, I. B. Dawid, and N. A. Hukriede The zebrafish kohtalo/trap230 gene is required for the development of the brain, neural crest, and pronephric kidney PNAS, December 20, 2005; 102(51): 18473 - 18478. [Abstract] [Full Text] [PDF]

				I. K. Quigley, J. L. Manuel, R. A. Roberts, R. J. Nuckels, E. R. Herrington, E. L. MacDonald, and D. M. Parichy Evolutionary diversification of pigment pattern in Danio fishes: differential fms dependence and stripe loss in D. albolineatus Development, January 1, 2005; 132(1): 89 - 104. [Abstract] [Full Text] [PDF]

				D. J. Horsford, M.-T. T. Nguyen, G. C. Sellar, R. Kothary, H. Arnheiter, and R. R. McInnes Chx10 repression of Mitf is required for the maintenance of mammalian neuroretinal identity Development, January 1, 2005; 132(1): 177 - 187. [Abstract] [Full Text] [PDF]

				I. K. Quigley, J. M. Turner, R. J. Nuckels, J. L. Manuel, E. H. Budi, E. L. MacDonald, and D. M. Parichy Pigment pattern evolution by differential deployment of neural crest and post-embryonic melanophore lineages in Danio fishes Development, December 15, 2004; 131(24): 6053 - 6069. [Abstract] [Full Text] [PDF]

				S. Fukamachi, M. Sugimoto, H. Mitani, and A. Shima Somatolactin selectively regulates proliferation and morphogenesis of neural-crest derived pigment cells in medaka PNAS, July 20, 2004; 101(29): 10661 - 10666. [Abstract] [Full Text] [PDF]

				J. H. Hallsson, B. S. Haflidadottir, C. Stivers, W. Odenwald, H. Arnheiter, F. Pignoni, and E. Steingrimsson The Basic Helix-Loop-Helix Leucine Zipper Transcription Factor Mitf Is Conserved in Drosophila and Functions in Eye Development Genetics, May 1, 2004; 167(1): 233 - 241. [Abstract] [Full Text] [PDF]

				J. L. Lewis, J. Bonner, M. Modrell, J. W. Ragland, R. T. Moon, R. I. Dorsky, and D. W. Raible Reiterated Wnt signaling during zebrafish neural crest development Development, March 15, 2004; 131(6): 1299 - 1308. [Abstract] [Full Text] [PDF]

				J. Bejar, Y. Hong, and M. Schartl Mitf expression is sufficient to direct differentiation of medaka blastula derived stem cells to melanocytes Development, December 29, 2003; 130(26): 6545 - 6553. [Abstract] [Full Text] [PDF]

				R. D. Knight, S. Nair, S. S. Nelson, A. Afshar, Y. Javidan, R. Geisler, G.-J. Rauch, and T. F. Schilling lockjaw encodes a zebrafish tfap2a required for early neural crest development Development, December 1, 2003; 130(23): 5755 - 5768. [Abstract] [Full Text] [PDF]

				J. M. Ungos, R. O. Karlstrom, and D. W. Raible Hedgehog signaling is directly required for the development of zebrafish dorsal root ganglia neurons Development, November 15, 2003; 130(22): 5351 - 5362. [Abstract] [Full Text] [PDF]

				Y. Terai, N. Morikawa, K. Kawakami, and N. Okada The complexity of alternative splicing of hagoromo mRNAs is increased in an explosively speciated lineage in East African cichlids PNAS, October 28, 2003; 100(22): 12798 - 12803. [Abstract] [Full Text] [PDF]

				Y. Mori-Akiyama, H. Akiyama, D. H. Rowitch, and B. de Crombrugghe Sox9 is required for determination of the chondrogenic cell lineage in the cranial neural crest PNAS, August 5, 2003; 100(16): 9360 - 9365. [Abstract] [Full Text] [PDF]

				F. Maderspacher and C. Nusslein-Volhard Formation of the adult pigment pattern in zebrafish requires leopard and obelix dependent cell interactions Development, August 1, 2003; 130(15): 3447 - 3457. [Abstract] [Full Text] [PDF]

				J. Graw, W. Pretsch, and J. Loster Mutation in Intron 6 of the Hamster Mitf Gene Leads to Skipping of the Subsequent Exon and Creates a Novel Animal Model for the Human Waardenburg Syndrome Type II Genetics, July 1, 2003; 164(3): 1035 - 1041. [Abstract] [Full Text] [PDF]

				S. Elworthy, J. A. Lister, T. J. Carney, D. W. Raible, and R. N. Kelsh Transcriptional regulation of mitfa accounts for the sox10 requirement in zebrafish melanophore development Development, June 15, 2003; 130(12): 2809 - 2818. [Abstract] [Full Text] [PDF]

				D. M. Parichy and J. M. Turner Temporal and cellular requirements for Fms signaling during zebrafish adult pigment pattern development Development, March 1, 2003; 130(5): 817 - 833. [Abstract] [Full Text] [PDF]

				J. F. Rawls, M. R. Frieda, A. R. McAdow, J. P. Gross, C. M. Clayton, C. K. Heyen, and S. L. Johnson Coupled Mutagenesis Screens and Genetic Mapping in Zebrafish Genetics, March 1, 2003; 163(3): 997 - 1009. [Abstract] [Full Text] [PDF]

				J. Altschmied, J. Delfgaauw, B. Wilde, J. Duschl, L. Bouneau, J.-N. Volff, and M. Schartl Subfunctionalization of Duplicate mitf Genes Associated With Differential Degeneration of Alternative Exons in Fish Genetics, May 1, 2002; 161(1): 259 - 267. [Abstract] [Full Text] [PDF]

				E. Steingrimsson, L. Tessarollo, B. Pathak, L. Hou, H. Arnheiter, N. G. Copeland, and N. A. Jenkins Mitf and Tfe3, two members of the Mitf-Tfe family of bHLH-Zip transcription factors, have important but functionally redundant roles in osteoclast development PNAS, April 2, 2002; 99(7): 4477 - 4482. [Abstract] [Full Text] [PDF]

				C. Wellbrock, C. Weisser, E. Geissinger, J. Troppmair, and M. Schartl Activation of p59Fyn Leads to Melanocyte Dedifferentiation by Influencing MKP-1-regulated Mitogen-activated Protein Kinase Signaling J. Biol. Chem., February 15, 2002; 277(8): 6443 - 6454. [Abstract] [Full Text] [PDF]

				K. A. Dutton, A. Pauliny, S. S. Lopes, S. Elworthy, T. J. Carney, J. Rauch, R. Geisler, P. Haffter, and R. N. Kelsh Zebrafish colourless encodes sox10 and specifies non-ectomesenchymal neural crest fates Development, November 1, 2001; 128(21): 4113 - 4125. [Abstract] [Full Text] [PDF]

				M. Furthauer, F. Reifers, M. Brand, B. Thisse, and C. Thisse sprouty4 acts in vivo as a feedback-induced antagonist of FGF signaling in zebrafish Development, June 15, 2001; 128(12): 2175 - 2186. [Abstract] [Full Text] [PDF]

				E. P. v. Strandmann, S. Senkel, G. Ryffel, and U. R. Hengge Dimerization Co-Factor of Hepatocyte Nuclear Factor 1/Pterin-4{{alpha}}-Carbinolamine Dehydratase Is Necessary for Pigmentation in Xenopus and Overexpressed in Primary Human Melanoma Lesions Am. J. Pathol., June 1, 2001; 158(6): 2021 - 2029. [Abstract] [Full Text] [PDF]