Symmetry and dimensions of membrane-bound nicotinic acetylcholine receptors from Torpedo californica electric tissue: rapid rearrangement to two-dimensional ordered lattices.

M Giersig, W Kunath, I Pribilla, G Bandini, F Hucho
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引用次数: 6

Abstract

Computer-aided image-averaging methods are applied to different preparations of membrane-bound nicotinic acetylcholine receptor. Circular harmonic averaging (CHA), a novel, reference-independent averaging method developed by W. Kunath and H. Sack-Kongehl [1989) Ultramicroscopy 27:171-184) allows analyzing images of single molecules of the receptor in its native membrane-bound state. The five subunits of the receptor are clearly resolved. At the resolution obtained (approximately 20 A) no differences were observed with resting and agonist-desensitized receptors. A method is proposed for rapidly arranging the acetylcholine receptors to ordered lattices. Depending on the conditions, tetragonal or hexagonal, two-dimensional lattices can be obtained within 2 to 6 days at 4 degrees C. Analysis by CHA shows that the receptor molecules preserve their gross structure and dimensions in these membranes, but that they are randomly oriented. Both lattices, therefore, do not represent true two-dimensional crystals.

加利福尼亚鱼雷电组织的膜结合烟碱乙酰胆碱受体的对称性和尺寸:快速重排到二维有序晶格。
将计算机辅助图像平均方法应用于不同膜结合烟碱乙酰胆碱受体的制备。循环谐波平均(CHA)是由W. Kunath和H. sackkongehl[1989)开发的一种新颖的、独立于参比的平均方法,可以分析受体在其天然膜结合状态下的单分子图像。受体的五个亚基被清楚地分解了。在获得的分辨率(大约20 A)下,与静止和激动剂脱敏受体没有观察到差异。提出了一种快速排列乙酰胆碱受体到有序晶格的方法。根据条件的不同,四边形或六边形,二维晶格可以在2到6天内在4摄氏度下得到。CHA分析表明,受体分子在这些膜中保持了它们的总体结构和尺寸,但它们是随机取向的。因此,这两个晶格都不能代表真正的二维晶体。
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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