The Silver locus product Pmel17/gp100/Silv/ME20: controversial in name and in function

Summary Mouse coat color mutants have led to the identification of more than 120 genes that encode proteins involved in all aspects of pigmentation, from the regulation of melanocyte development and differentiation to the transcriptional activation of pigment genes, from the enzymatic formation of p...

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Veröffentlicht in:	Pigment cell research 2005-10, Vol.18 (5), p.322-336
Hauptverfasser:	Theos, Alexander C., Truschel, Steven T., Raposo, Graça, Marks, Michael S.
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Sprache:	eng
Schlagworte:	Amino Acid Sequence Animals Cell Line, Tumor Endoplasmic Reticulum - metabolism endosome Endosomes - metabolism fibril formation Gene Expression Regulation gp100 Melanoma Antigen Hair Color - genetics Humans Melanins - biosynthesis Melanins - genetics melanosome Melanosomes - chemistry Melanosomes - physiology Melanosomes - ultrastructure Membrane Glycoproteins - genetics Molecular Sequence Data Neoplasm Proteins - genetics Proteins - genetics Proteins - physiology Sequence Alignment
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creator	Theos, Alexander C. Truschel, Steven T. Raposo, Graça Marks, Michael S.
description	Summary Mouse coat color mutants have led to the identification of more than 120 genes that encode proteins involved in all aspects of pigmentation, from the regulation of melanocyte development and differentiation to the transcriptional activation of pigment genes, from the enzymatic formation of pigment to the control of melanosome biogenesis and movement [Bennett and Lamoreux (2003)Pigment Cell Res. 16, 333]. One of the more perplexing of the identified mouse pigment genes is encoded at the Silver locus, first identified by Dunn and Thigpen [(1930) J. Heredity21, 495] as responsible for a recessive coat color dilution that worsened with age on black backgrounds. The product of the Silver gene has since been discovered numerous times in different contexts, including the initial search for the tyrosinase gene, the characterization of major melanosome constituents in various species, and the identification of tumor‐associated antigens from melanoma patients. Each discoverer provided a distinct name: Pmel17, gp100, gp95, gp85, ME20, RPE1, SILV and MMP115 among others. Although all its functions are unlikely to have yet been fully described, the protein clearly plays a central role in the biogenesis of the early stages of the pigment organelle, the melanosome, in birds, and mammals. As such, we will refer to the protein in this review simply as pre‐melanosomal protein (Pmel). This review will summarize the structural and functional aspects of Pmel and its role in melanosome biogenesis.
doi_str_mv	10.1111/j.1600-0749.2005.00269.x
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One of the more perplexing of the identified mouse pigment genes is encoded at the Silver locus, first identified by Dunn and Thigpen [(1930) J. Heredity21, 495] as responsible for a recessive coat color dilution that worsened with age on black backgrounds. The product of the Silver gene has since been discovered numerous times in different contexts, including the initial search for the tyrosinase gene, the characterization of major melanosome constituents in various species, and the identification of tumor‐associated antigens from melanoma patients. Each discoverer provided a distinct name: Pmel17, gp100, gp95, gp85, ME20, RPE1, SILV and MMP115 among others. Although all its functions are unlikely to have yet been fully described, the protein clearly plays a central role in the biogenesis of the early stages of the pigment organelle, the melanosome, in birds, and mammals. As such, we will refer to the protein in this review simply as pre‐melanosomal protein (Pmel). 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One of the more perplexing of the identified mouse pigment genes is encoded at the Silver locus, first identified by Dunn and Thigpen [(1930) J. Heredity21, 495] as responsible for a recessive coat color dilution that worsened with age on black backgrounds. The product of the Silver gene has since been discovered numerous times in different contexts, including the initial search for the tyrosinase gene, the characterization of major melanosome constituents in various species, and the identification of tumor‐associated antigens from melanoma patients. Each discoverer provided a distinct name: Pmel17, gp100, gp95, gp85, ME20, RPE1, SILV and MMP115 among others. Although all its functions are unlikely to have yet been fully described, the protein clearly plays a central role in the biogenesis of the early stages of the pigment organelle, the melanosome, in birds, and mammals. As such, we will refer to the protein in this review simply as pre‐melanosomal protein (Pmel). 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subjects	Amino Acid Sequence Animals Cell Line, Tumor Endoplasmic Reticulum - metabolism endosome Endosomes - metabolism fibril formation Gene Expression Regulation gp100 Melanoma Antigen Hair Color - genetics Humans Melanins - biosynthesis Melanins - genetics melanosome Melanosomes - chemistry Melanosomes - physiology Melanosomes - ultrastructure Membrane Glycoproteins - genetics Molecular Sequence Data Neoplasm Proteins - genetics Proteins - genetics Proteins - physiology Sequence Alignment
title	The Silver locus product Pmel17/gp100/Silv/ME20: controversial in name and in function
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