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本文引用的文献

1
Total internal reflection fluorescence correlation spectroscopy (TIR-FCS) with low background and high count-rate per molecule.具有低背景和高单分子计数率的全内反射荧光相关光谱法(TIR-FCS)。
Opt Express. 2005 Sep 19;13(19):7415-23. doi: 10.1364/opex.13.007415.
2
Cysteine-independent inhibition of the CFTR chloride channel by the cysteine-reactive reagent sodium (2-sulphonatoethyl) methanethiosulphonate.半胱氨酸非依赖性抑制 CFTR 氯离子通道的巯基反应试剂磺基乙硫磺酸酯钠。
Br J Pharmacol. 2009 Jul;157(6):1065-71. doi: 10.1111/j.1476-5381.2009.00258.x. Epub 2009 May 19.
3
Mechanisms of relaxin receptor (LGR7/RXFP1) expression and function.松弛素受体(LGR7/RXFP1)的表达及功能机制。
Ann N Y Acad Sci. 2009 Apr;1160:60-6. doi: 10.1111/j.1749-6632.2008.03826.x.
4
Multiple Kv1.5 targeting to membrane surface microdomains.多个Kv1.5定位于膜表面微结构域。
J Cell Physiol. 2008 Dec;217(3):667-73. doi: 10.1002/jcp.21538.
5
Diffusion coefficient of fluorescent phosphatidylinositol 4,5-bisphosphate in the plasma membrane of cells.细胞质膜中荧光磷脂酰肌醇4,5-二磷酸的扩散系数。
Mol Biol Cell. 2008 Apr;19(4):1663-9. doi: 10.1091/mbc.e07-12-1208. Epub 2008 Feb 6.
6
Dynamic but not constitutive association of calmodulin with rat TRPV6 channels enables fine tuning of Ca2+-dependent inactivation.钙调蛋白与大鼠瞬时受体电位香草酸亚型6(TRPV6)通道呈动态而非组成性结合,从而实现对钙离子依赖性失活的精细调节。
J Physiol. 2006 Nov 15;577(Pt 1):31-44. doi: 10.1113/jphysiol.2006.118661. Epub 2006 Sep 7.
7
Lateral mobility of membrane-binding proteins in living cells measured by total internal reflection fluorescence correlation spectroscopy.通过全内反射荧光相关光谱法测量活细胞中膜结合蛋白的侧向流动性。
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8
Characterization of N-glycosylation consensus sequences in the Kv3.1 channel.Kv3.1通道中N-糖基化共有序列的特征分析。
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Imaging today's infectious animalcules.对当今传染性微生物进行成像。
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10
Most LQT2 mutations reduce Kv11.1 (hERG) current by a class 2 (trafficking-deficient) mechanism.大多数LQT2突变通过2类(运输缺陷)机制降低Kv11.1(hERG)电流。
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利用荧光相关光谱技术比较活细胞中野生型和 G601S hERG 蛋白的行为。

Comparison of protein behavior between wild-type and G601S hERG in living cells by fluorescence correlation spectroscopy.

机构信息

International Research and Educational Institute for Integrated Medical Sciences (IREIIMS), Tokyo Women's Medical University, Kawata-cho, Shinjuku-ku, Tokyo, Japan.

出版信息

J Physiol Sci. 2011 Jul;61(4):313-9. doi: 10.1007/s12576-011-0150-2. Epub 2011 May 15.

DOI:10.1007/s12576-011-0150-2
PMID:21573751
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10717380/
Abstract

The human ether-a-go-go-related gene (hERG) protein is a cardiac potassium channel. Mutations in hERG can result in reductions in membrane channel current, cardiac repolarization, prolongation of QT intervals, and lethal arrhythmia. In the last decade, it has been found that some mutants of hERG involved in long QT syndrome exhibit intracellular protein trafficking defects, while other mutants sort to the membrane but cannot form functional channels. Due to the close relationship between intracellular trafficking and functional protein expression, we aimed to measure differences in protein behavior/motion between wild-type and mutant hERG by directly analyzing the fluorescence fluctuations of green fluorescent protein-labeled proteins using fluorescence correlation spectroscopy (FCS). Our data imply that FCS can be applied as a new diagnostic tool to assess whether the defect in a particular mutant channel protein involves aberrant intracellular trafficking.

摘要

人类 ether-a-go-go 相关基因 (hERG) 蛋白是一种心脏钾通道。hERG 中的突变可导致膜通道电流减少、心脏复极化、QT 间期延长和致命性心律失常。在过去的十年中,人们发现一些与长 QT 综合征相关的 hERG 突变体存在细胞内蛋白运输缺陷,而其他突变体则分拣到膜上,但不能形成功能性通道。由于细胞内运输与功能性蛋白质表达之间的密切关系,我们旨在通过使用荧光相关光谱法 (FCS) 直接分析绿色荧光蛋白标记的蛋白质的荧光波动,来测量野生型和突变型 hERG 之间蛋白质行为/运动的差异。我们的数据表明,FCS 可以用作新的诊断工具,以评估特定突变通道蛋白的缺陷是否涉及异常的细胞内运输。