After providing a personal description of the convoluted path leading 25 years ago to the molecular identification of the Torpedo Cl− channel ClC-0 and the discovery of the CLC gene family, I succinctly describe the general structural and functional features of these ion transporters before giving a short overview of mammalian CLCs. These can be categorized into plasma membrane Cl− channels and vesicular Cl−/H+-exchangers. They are involved in the regulation of membrane excitability, transepithelial transport, extracellular ion homeostasis, endocytosis and lysosomal function. Diseases caused by CLC dysfunction include myotonia, neurodegeneration, deafness, blindness, leukodystrophy, male infertility, renal salt loss, kidney stones and osteopetrosis, revealing a surprisingly broad spectrum of biological roles for chloride transport that was unsuspected when I set out to clone the first voltage-gated chloride channel.
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机译:在对25年前通向鱼雷Cl -通道ClC-0的分子鉴定以及CLC基因家族的发现提供了个人描述之后,我简要描述了总体结构和功能这些离子转运蛋白的特征,然后简要概述哺乳动物CLC。这些可分为质膜Cl -通道和囊泡Cl - / H + 交换器。它们参与膜兴奋性,跨上皮运输,细胞外离子稳态,内吞作用和溶酶体功能的调节。由CLC功能障碍引起的疾病包括肌强直,神经退行性疾病,耳聋,失明,白细胞营养不良,男性不育,肾盐丢失,肾结石和骨化石,揭示了氯化物转运的令人惊讶的广谱生物学作用,当我着手克隆第一个时,这是没有想到的。电压门控氯离子通道。
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