IpTx(a)的碱性和酸性氨基酸残基均参与触发兰尼碱受体1（RyR1）的亚状态。

Both basic and acidic amino acid residues of IpTx(a) are involved in triggering substate of RyR1.

作者信息

Seo In Ra, Kang Dae Eun, Song Dong Woo, Kim Do Han

机构信息

Systems Biology Research Center, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Republic of Korea.

出版信息

J Biomed Biotechnol. 2011;2011:386384. doi: 10.1155/2011/386384. Epub 2011 Oct 5.

DOI:10.1155/2011/386384

PMID:22007141

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3192407/

Abstract

Imperatoxin A (IpTx(a)) is known to modify the gating of skeletal ryanodine receptor (RyR1). In this paper, the ability of charged aa residues of IpTx(a) to induce substate of native RyR1 in HSR was examined. Our results show that the basic residues (e.g., Lys¹⁹, Lys²⁰, Lys²², Arg²³, and Arg²⁴) are important for producing substate of RyR1. In addition, other basic residues (e.g., Lys³⁰, Arg³¹, and Arg³³ near the C-terminus and some acidic residues (e.g., Glu²⁹, Asp¹³, and Asp²) are also involved in the generation of substate. Residues such as Lys⁸ and Thr²⁶ may be involved in the self-regulation of substate of RyR1, since alanine substitution of the aa residues led to a drastic conversion to the substate. The modifications of the channel gating by the wild-type and mutant toxins were similar in purified RyR1. Taken together, the specific charge distributions on the surface of IpTx(a) are essential for regulation of the channel gating of RyR1.

摘要

Imperatoxin A（IpTx(a)）已知可改变骨骼肌兰尼碱受体（RyR1）的门控。在本文中，研究了IpTx(a)的带电氨基酸残基诱导热稳定储备（HSR）中天然RyR1亚状态的能力。我们的结果表明，碱性残基（如Lys¹⁹、Lys²⁰、Lys²²、Arg²³和Arg²⁴）对于产生RyR1的亚状态很重要。此外，其他碱性残基（如靠近C端的Lys³⁰、Arg³¹和Arg³³）以及一些酸性残基（如Glu²⁹、Asp¹³和Asp²）也参与亚状态的产生。诸如Lys⁸和Thr²⁶等残基可能参与RyR1亚状态的自我调节，因为这些氨基酸残基被丙氨酸取代会导致向亚状态的急剧转变。野生型和突变型毒素对通道门控的修饰在纯化的RyR1中相似。综上所述，IpTx(a)表面的特定电荷分布对于调节RyR1的通道门控至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c06b/3192407/0b03fb0301a1/JBB2011-386384.001.jpg

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IpTx(a)的碱性和酸性氨基酸残基均参与触发兰尼碱受体1（RyR1）的亚状态。

Both basic and acidic amino acid residues of IpTx(a) are involved in triggering substate of RyR1.

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