Green W N, Claudio T
Department of Cellular and Molecular Physiology, Yale University School of Medicine, New Haven, Connecticut 06510.
Cell. 1993 Jul 16;74(1):57-69. doi: 10.1016/0092-8674(93)90294-z.
The temperature sensitivity of nicotinic acetylcholine receptors (AChRs) from T. californica was used to identify steps in AChR subunit folding and oligomerization. Assembly intermediates were isolated by lowering to an assembly-permissive temperature. The earliest identifiable assembly intermediates, alpha beta gamma trimers, form minutes after subunit synthesis. alpha beta gamma delta tetramers are formed slowly by the addition of delta subunits to trimers, and finally a second alpha subunit is added to form alpha 2 beta gamma delta pentamers. Between these oligomerization steps, subunits fold as monitored by alpha-bungarotoxin-binding site formation, appearance of antigenic epitopes, changes in apparent molecular weight, and changes in detergent solubility. Subunit folding requires specific combinations of subunits and correlates in time with subunit additions, suggesting that these subunit folding events contribute to subunit recognition site formation during assembly.
利用加州电鳐烟碱型乙酰胆碱受体(AChRs)的温度敏感性来确定AChR亚基折叠和寡聚化的步骤。通过降低到允许组装的温度来分离组装中间体。最早可识别的组装中间体αβγ三聚体在亚基合成后几分钟形成。αβγδ四聚体通过向三聚体中添加δ亚基缓慢形成,最后添加第二个α亚基形成α2βγδ五聚体。在这些寡聚化步骤之间,通过α-银环蛇毒素结合位点的形成、抗原表位的出现、表观分子量的变化以及去污剂溶解性的变化来监测亚基折叠。亚基折叠需要特定的亚基组合,并且在时间上与亚基添加相关,这表明这些亚基折叠事件有助于组装过程中亚基识别位点的形成。