失去REEP4会导致爪蟾胚胎瘫痪。

Joanna Argasinska, Amer A. Rana, M. Gilchrist, Kim Lachani, Alice Young, James C. Smith
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引用次数: 11

摘要

REEP(受体表达增强蛋白)家族成员含有TB2/DP1, HVA22结构域,参与细胞内运输和分泌。与该结构域的存在一致,REEP1和REEP3增强了哺乳动物嗅觉和味觉受体的表达,而这些基因的突变会导致神经发育缺陷。REEP4是在寻找热带非洲爪蟾早期发育相关基因的功能性反义morpholino寡核苷酸筛选过程中发现的:尽管该基因的过度表达不会导致表型,但缺乏REEP4的胚胎会产生轻微的体轴扭结并瘫痪。在尾芽发育阶段,REEP4在体和神经管中表达。因此,在缺乏REEP4的胚胎中观察到的瘫痪可能是由神经系统或肌肉缺陷引起的。为了解决这一点,我们检查了各种神经和肌肉标记物的表达,发现尽管所有这些标记物在发育早期都正常表达,但许多标记物在尾芽阶段被下调。这表明REEP4在神经系统和肌肉组织的维持中都起作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Loss of REEP4 causes paralysis of the Xenopus embryo.
Members of the REEP (Receptor expression enhancing protein) family contain a TB2/DP1, HVA22 domain that is involved in intracellular trafficking and secretion. Consistent with the presence of this domain, REEP1 and REEP3 enhance the expression of odorant and taste receptors in mammals, while mutation of these genes causes defects in neural development. REEP4 was identified in the course of a functional antisense morpholino oligonucleotide screen searching for genes involved in the early development of Xenopus tropicalis: although over-expression of the gene causes no phenotype, embryos lacking REEP4 develop a slightly kinked body axis and are paralysed. At tailbud stages of development, REEP4 is expressed in the somites and neural tube. The paralysis observed in embryos lacking REEP4 might therefore be caused by defects in the nervous system or in muscle. To address this point, we examined the expression of various neural and muscle markers and found that although all are expressed normally at early stages of development, many are down regulated by the tailbud stage. This suggests that REEP4 plays a role in the maintenance of both the nervous system and the musculature.
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