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FOXQ1 H3 结构域中的 R164C 突变影响毛发髓质的形成。

R164C mutation in FOXQ1 H3 domain affects formation of the hair medulla.

出版信息

Exp Dermatol. 2013 Mar;22(3):234-6. doi: 10.1111/exd.12106.

DOI:10.1111/exd.12106
PMID:23489430
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3602905/
Abstract

A number of single gene mutations in laboratory mice produce hair follicle defects resulting in deformed hair shafts. The radiation-induced (SB/LeJ-Foxq1(sa)) satin mutant mice have a satin-like sheen to their hair and dilute colouration. This sheen is due to failure of the hair shafts to develop normal medullas, while the pigment dilution is due to the unrelated beige (lysosomal trafficking regulator, Lyst(bg)) mutation. A new allelic mutation, Foxq1(sa-J), arose spontaneously on the albino (tyrosinase, Tyr(c)) MRL/MpJ-Fas(lpr) background. The Foxq1(sa-J) allele has a C to T transition at position 490. By contrast, the Foxq1(sa) mutant allele was confirmed to be a 67 base pair deletion followed by two base changes (GA to AT). Morphologic changes were similar to those seen in Hoxc13 transgenic and targeted mutant mice. This new allelic mutation provides yet another tool to investigate formation of the interior structures of hair shafts.

摘要

一些实验室小鼠的单基因突变会导致毛囊缺陷,从而产生畸形的毛发。辐射诱导的(SB/LeJ-Foxq1(sa)) 缎纹突变小鼠的毛发具有缎面般的光泽和淡色。这种光泽是由于毛发轴无法正常形成髓质所致,而色素稀释则是由于不相关的 beige(溶酶体运输调节剂,Lyst(bg)) 突变所致。一种新的等位基因突变,Foxq1(sa-J),在白化(酪氨酸酶,Tyr(c)) MRL/MpJ-Fas(lpr) 背景下自发出现。Foxq1(sa-J) 等位基因在位置 490 处发生 C 到 T 的转换。相比之下,Foxq1(sa) 突变等位基因被确认为 67 个碱基对缺失,随后是两个碱基变化(GA 到 AT)。形态变化与 Hoxc13 转基因和靶向突变小鼠中观察到的相似。这种新的等位基因突变提供了另一种工具来研究毛发轴内部结构的形成。

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