人类色觉变异与视网膜视锥镶嵌的遗传学

Genetics of variation in human color vision and the retinal cone mosaic.

作者信息

Deeb Samir S

机构信息

Departments of Medicine, Medical Genetics and Genome Sciences, University of Washington, Seattle, WA 98185, USA.

出版信息

Curr Opin Genet Dev. 2006 Jun;16(3):301-7. doi: 10.1016/j.gde.2006.04.002. Epub 2006 May 2.

DOI:10.1016/j.gde.2006.04.002

PMID:16647849

Abstract

Variation in human color vision is mainly caused by one common polymorphism (Ser180Ala) in the L pigment, and to the frequent presence of hybrid genes that encode pigments with various spectral properties. Both recombination and gene conversion between the highly homologous L and M pigment genes have generated wide variation in genotype and color vision phenotype. The S, M and L cones are distributed randomly in the central retina. Unlike S cones, M and L cones vary widely in number within the central retina. Determining the number of the three classes of cone and their special distribution in the living retina has significantly advanced the ability to correlate the cone mosaic in normal and color-defective subjects with the color vision phenotype. The transcription factors NR2E3, TRbeta2 and RXRgamma play crucial roles in establishment of the retinal cone mosaic during eye development.

摘要

人类色觉的变异主要由L色素中一种常见的多态性（Ser180Ala）以及编码具有各种光谱特性色素的杂交基因的频繁存在引起。高度同源的L和M色素基因之间的重组和基因转换都导致了基因型和色觉表型的广泛变异。S、M和L视锥细胞随机分布在视网膜中央。与S视锥细胞不同，M和L视锥细胞在视网膜中央的数量差异很大。确定这三类视锥细胞的数量及其在活体视网膜中的特殊分布，极大地提高了将正常和色觉缺陷受试者的视锥细胞镶嵌与色觉表型相关联的能力。转录因子NR2E3、TRbeta2和RXRgamma在眼睛发育过程中视网膜视锥细胞镶嵌的建立中起着关键作用。

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人类色觉变异与视网膜视锥镶嵌的遗传学

Genetics of variation in human color vision and the retinal cone mosaic.

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