位于电压场之外的保守氨基酸可改变电压敏感性，并提高基于GEVIs的信号速度和幅度。

Conserved Amino Acids Residing Outside the Voltage Field Can Shift the Voltage Sensitivity and Increase the Signal Speed and Size of Based GEVIs.

作者信息

Sepehri Rad Masoud, Cohen Lawrence B, Baker Bradley J

机构信息

Brain Science Institute, Korea Institute of Science and Technology (KIST), Seoul, South Korea.

Department of Neuroscience, University of Wisconsin, Madison, WI, United States.

出版信息

Front Cell Dev Biol. 2022 Jun 16;10:868143. doi: 10.3389/fcell.2022.868143. eCollection 2022.

DOI:10.3389/fcell.2022.868143

PMID:35784472

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9243531/

Abstract

To identify potential regions of the voltage-sensing domain that could shift the voltage sensitivity of based Genetically Encoded Voltage Indicators (GEVIs), we aligned the amino acid sequences of voltage-gated sodium channels from different organisms. Conserved polar residues were identified at multiple transmembrane/loop junctions in the voltage sensing domain. Similar conservation of polar amino acids was found in the voltage-sensing domain of the voltage-sensing phosphatase gene family. These conserved residues were mutated to nonpolar or oppositely charged amino acids in a GEVI that utilizes the voltage sensing domain of the voltage sensing phosphatase from fused to the fluorescent protein, super ecliptic pHluorin (A227D). Different mutations shifted the voltage sensitivity to more positive or more negative membrane potentials. Double mutants were then created by selecting constructs that shifted the optical signal to a more physiologically relevant voltage range. Introduction of these mutations into previously developed GEVIs resulted in Plos6-v2 which improved the dynamic range to 40% ΔF/F/100 mV, a 25% increase over the parent, ArcLight. The onset time constant of Plos6-v2 is also 50% faster than ArcLight. Thus, Plos6-v2 appears to be the GEVI of choice.

摘要

为了确定电压感应域中可能改变基于基因编码电压指示器（GEVI）的电压敏感性的潜在区域，我们比对了来自不同生物体的电压门控钠通道的氨基酸序列。在电压感应域的多个跨膜/环连接处鉴定出了保守的极性残基。在电压感应磷酸酶基因家族的电压感应域中也发现了类似的极性氨基酸保守性。在一种利用来自融合到荧光蛋白超 ecliptic pHluorin（A227D）的电压感应磷酸酶的电压感应域的GEVI中，这些保守残基被突变为非极性或带相反电荷的氨基酸。不同的突变将电压敏感性转移到更正或更负的膜电位。然后通过选择将光信号转移到更生理相关电压范围的构建体来创建双突变体。将这些突变引入先前开发的GEVI中产生了Plos6-v2，其动态范围提高到40%ΔF/F/100 mV，比亲本ArcLight增加了25%。Plos6-v2的起始时间常数也比ArcLight快50%。因此，Plos6-v2似乎是首选的GEVI。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/51b8/9243531/6dc944c4ffe6/fcell-10-868143-g001.jpg

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位于电压场之外的保守氨基酸可改变电压敏感性，并提高基于GEVIs的信号速度和幅度。

Conserved Amino Acids Residing Outside the Voltage Field Can Shift the Voltage Sensitivity and Increase the Signal Speed and Size of Based GEVIs.

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