| GPCR A2A AR腺苷受体蛋白的激动剂结合及其诱导的蛋白活性开关构象变化 |
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| 引用本文: | 庞雪芹,刘建勇. GPCR A2A AR腺苷受体蛋白的激动剂结合及其诱导的蛋白活性开关构象变化[J]. 化学物理学报(中文版), 2014, 0(1): 29-38,I0003 |
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| 作者姓名: | 庞雪芹 刘建勇 |
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| 作者单位: | 中国科学院大连化学物理研究所分子反应动力学国家重点实验室,大连116023 |
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| 摘 要: | 运用分子动力学模拟,研究了腺苷酸(激动剂)与A2AAR腺苷受体蛋白的相互作用和配体结合诱导的蛋白动力学变化.识别了与腺苷酸结合力强于0.5kcal/mol的关键基团:A63^2.61,I66^2.64,V84^3.32,L85^3.33,T88^3.36,F168^5.29,M177^5.38,L249^6.51,H250^6.52和N253^6.55,观察到腺苷酸没有与L167^5.28相互作用,这一结果支持了L167^5.28是抑制剂特异性结合位点,不与激动剂结合.未结合配体(激动剂或抑制剂)的单体A2AAR和腺苷酸结合后的A2AAR在构象上有三个不同功能性开关.腺苷酸结合可以诱导A2AAR腺苷受体蛋白的构象调整,使得三个功能性开关器件的构象与单体A2AAR不同.
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| 关 键 词: | A2AAR腺苷受体蛋白 分子动力学 腺苷酸 特异性结合 结构动力学 二级结构 |
GPCR A2AAR Agonist Binding and Induced Conformation Changes of Functional Switches |
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| Xue-qin Pang,Jian-yong Liu. GPCR A2AAR Agonist Binding and Induced Conformation Changes of Functional Switches[J]. Chinese Journal of Chemical Physics, 2014, 0(1): 29-38,I0003 |
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| Authors: | Xue-qin Pang Jian-yong Liu |
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| Affiliation: | State Key Laboratory of Molecular Reaction Dynamics, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Oalian 116023, China |
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| Abstract: | Agonist binding of A2A adenosine receptor (A2AAR) shows protective effects against inflammatory and immune. Efforts are exerted in understanding the general mechanism and developing A2AAR selectively binding agonists. Using molecular dynamics (MD) simula- tions, we have studied the interactions between A2AAR and its agonist (adenosine), and analyzed the induced dynamic behaviors of the receptor. Key residues interacting with adenosine are identified: A63^2.61,I66^2.64,V84^3.32,L85^3.33,T88^3.36,F168^5.29,M177^5.38,L249^6.51,H250^6.52 and N253^6.55 interacting with adenosine with affinities larger than 0.5 kcal/mol. Moreover, no interaction between adenosine and L167^5.28 is observed, which supports our previous findings that L1675^5.28 is an antagonist specific binding reside. The dynamic be- haviors of agonist bound A2AAR are found to be different from apo-A2AAR in three typical functional switches: (i) tight "ionic lock" forms in adenosine-A2AAR, but it is in equilibrium between formation and breakage in apo-A2AAR; (ii) the "rotamer toggle switch", T88^3.36/F242^6.44/W246^6.48, adopted different rotameric conformations in adenosin-A2AAR and apo-A2AAR; (iii) adenosine-A2AAR has a flexible intracellular loop 2 (IC2) and s-helical IC3, while apo-A2AAR preferred s-helical IC2 and flexible IC3. Our results indicate that agonist binding induced different conformational rearrangements of these characteristic functional switches in adenosine-A2AAR and apo-A2AAR. |
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| Keywords: | A2A adenosine receptor Molecular dynamics Adenosine Specific binding Conformational dynamics Ionic lock Rotamer toggle switch Secondary structure |
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