Fast cross-linking by DOPA2 promotes the capturing of a stereospecific protein complex over nonspecific encounter complexes.

Jian-Hua Wang, Zhou Gong, Xu Dong, Shu-Qun Liu, Yu-Liang Tang, Xiaoguang Lei, Chun Tang, Meng-Qiu Dong
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引用次数: 1

Abstract

Transient and weak protein-protein interactions are essential to many biochemical reactions, yet are technically challenging to study. Chemical cross-linking of proteins coupled with mass spectrometry analysis (CXMS) provides a powerful tool in the analysis of such interactions. Central to this technology are chemical cross-linkers. Here, using two transient heterodimeric complexes EIN/HPr and EIIAGlc/EIIBGlc as our model systems, we evaluated the effects of two amine-specific homo-bifunctional cross-linkers with different reactivities. We showed previously that DOPA2 (di-ortho-phthalaldehyde with a di-ethylene glycol spacer arm) cross-links proteins 60-120 times faster than DSS (disuccinimidyl suberate). We found that though most of the intermolecular cross-links of either cross-linker are consistent with the encounter complexes (ECs), an ensemble of short-lived binding intermediates, more DOPA2 intermolecular cross-links could be assigned to the stereospecific complex (SC), the final lowest-energy conformational state for the two interacting proteins. Our finding suggests that faster cross-linking captures the SC more effectively and cross-linkers of different reactivities potentially probe protein-protein interaction dynamics across multiple timescales.

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DOPA2的快速交联促进了立体特异性蛋白复合物在非特异性相遇复合物上的捕获。
短暂的和弱的蛋白质相互作用是许多生化反应必不可少的,但在技术上具有挑战性的研究。化学交联蛋白结合质谱分析(CXMS)为分析这种相互作用提供了强有力的工具。这项技术的核心是化学交联剂。本研究以两种瞬态异二聚物EIN/HPr和EIIAGlc/EIIBGlc为模型体系,评估了两种具有不同反应活性的胺特异性同源双功能交联剂的作用。我们先前表明,DOPA2(带二乙二醇间隔臂的二邻苯二醛)交联蛋白质的速度比DSS(二琥珀酰亚酸)快60-120倍。我们发现,尽管这两种交联剂的大多数分子间交联与偶遇复合物(ECs)一致,但更多的DOPA2分子间交联可能被分配给立体特异性复合物(SC),这是两种相互作用蛋白的最终最低能量构象状态。我们的发现表明,更快的交联更有效地捕获SC,不同反应性的交联剂可能跨越多个时间尺度探测蛋白质相互作用动力学。
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CiteScore
1.30
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0.00%
发文量
117
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