在膜融合过程中,由融合性病毒包膜蛋白形成的孔的最初几毫秒。
The first milliseconds of the pore formed by a fusogenic viral envelope protein during membrane fusion.
作者信息
Spruce A E, Iwata A, Almers W
机构信息
Department of Physiology and Biophysics, University of Washington, Seattle 98195.
出版信息
Proc Natl Acad Sci U S A. 1991 May 1;88(9):3623-7. doi: 10.1073/pnas.88.9.3623.
Abstract
Fibroblasts expressing the influenza virus hemagglutinin on their plasma membrane were patch clamped while they fused to erythrocytes. An increase in the fibroblast's membrane capacitance indicated the opening of the "fusion pore," the first aqueous connection between the fusing cells. We show here that the capacitance increase is preceded by a brief current transient, generated as the erythrocyte discharges its membrane potential through the nascent fusion pore. This signal allows one to calculate the pore conductance during the first milliseconds of its existence. The pore conductance jumps from 0 to approximately 150 pS and then grows more gradually over the subsequent tens of milliseconds until growth is arrested. The initial conductance is similar to that of a large ion channel and suggests that the pore is initially only 1-2 nm wide. Hence, we are probably observing events caused by only a small number of hemagglutinin molecules.
摘要
当在其质膜上表达流感病毒血凝素的成纤维细胞与红细胞融合时,对其进行膜片钳记录。成纤维细胞膜电容的增加表明“融合孔”的开放,这是融合细胞之间的第一个水性连接。我们在此表明,在电容增加之前有一个短暂的电流瞬变,这是由于红细胞通过新生的融合孔释放其膜电位而产生的。该信号使人们能够计算融合孔存在的最初几毫秒内的孔电导。孔电导从0跃升至约150 pS,然后在随后的几十毫秒内逐渐增加,直至增长停止。初始电导与大离子通道的电导相似,这表明孔最初仅1-2纳米宽。因此,我们可能观察到的事件仅由少数血凝素分子引起。
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