Nano-LC-FTMS Analysis of the Primary Structure and Post-translational Modifications of the α1 Subunit of the GABAA Receptor

Q3 Biochemistry, Genetics and Molecular Biology

Biointerface Research in Applied Chemistry Pub Date : 2022-09-24 DOI:10.33263/briac134.363

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Abstract

GABAAR is one of the most significant drug targets in the treatment of neuropsychiatric disorders such as epilepsy, insomnia, anxiety, as well as anesthesia in surgical operations. However, complete information on the regulation of GABAA receptor activity is lacking. Therefore, studies are needed on post-translational modifications of receptor subunits that exhibit different pharmacological and physiological properties. GABAAR has been immunopurified from rat brain membranes on protein A agarose beads immobilized with complex anti-GABAAR antibody. Primary structure and post-translational modifications of the α1 subunit of GABAAR have been characterized by nano-LC-FTMS peptide mapping by direct in situ–gel digestion on the one-dimensional gel. The primary structure of the α1 subunit of GABAAR has been identified with high sequence coverage (81%, 371 from 455 amino acids). The extracellular domains, N-terminal and the C-terminus, have been identified with extensive sequence coverage, 85 and 100 % (214 from 249 amino acids), respectively. Other soluble domains, including the M1-M2 linker, and the M3-M4 linker, have also been determined with 100 and 85 % (75 from 88 amino acids), respectively. Transmembrane domains, including M1, M2, and M4, were identified almost completely. Post-translational modifications of the α1 subunit peptides have been found, such as phosphorylation, methionine oxidation, and carbamidomethylation.

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γ-氨基丁酸受体α1亚基一级结构和翻译后修饰的纳米LC-FTMS分析

GABAAR是治疗癫痫、失眠、焦虑等神经精神疾病以及外科手术麻醉的最重要药物靶点之一。然而，关于GABAA受体活性调节的完整信息尚缺乏。因此，需要对表现出不同药理和生理特性的受体亚基的翻译后修饰进行研究。用复合抗GABAAR抗体固定的A蛋白琼脂糖珠从大鼠脑膜上免疫纯化了GABAAR。GABAARα1亚基的一级结构和翻译后修饰已通过在一维凝胶上直接原位凝胶消化的纳米LC FTMS肽图谱进行了表征。GABAAR的α1亚基的一级结构已被鉴定为具有高序列覆盖率（81%，455个氨基酸中有371个）。细胞外结构域，N末端和C末端，已被鉴定为具有广泛的序列覆盖率，分别为85%和100%（249个氨基酸中的214个）。其他可溶性结构域，包括M1-M2连接体和M3-M4连接体，也已分别测定为100%和85%（88个氨基酸中的75个）。跨膜结构域，包括M1、M2和M4，几乎完全被鉴定。已经发现α1亚基肽的翻译后修饰，如磷酸化、甲硫氨酸氧化和氨基甲酰甲基化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biointerface Research in Applied Chemistry CHEMISTRY, APPLIED-

CiteScore

4.80

自引率

0.00%

发文量

256

期刊介绍： Biointerface Research in Applied Chemistry is an international and interdisciplinary research journal that focuses on all aspects of nanoscience, bioscience and applied chemistry. Submissions are solicited in all topical areas, ranging from basic aspects of the science materials to practical applications of such materials. With 6 issues per year, the first one published on the 15th of February of 2011, Biointerface Research in Applied Chemistry is an open-access journal, making all research results freely available online. The aim is to publish original papers, short communications as well as review papers highlighting interdisciplinary research, the potential applications of the molecules and materials in the bio-field. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible.