Rosenberg R L, Tomiko S A, Agnew W S
Proc Natl Acad Sci U S A. 1984 Sep;81(17):5594-8. doi: 10.1073/pnas.81.17.5594.
The tetrodotoxin-binding protein purified from electroplax of Electrophorus electricus has been reincorporated into multilamellar vesicles that were used for patch recording. When excised patches of these reconstituted membranes were voltage clamped in the absence of neurotoxins, voltage-dependent single-channel currents were recorded. These displayed properties qualitatively and quantitatively similar to those reported for Na channels from nerve and muscle cells, including uniform single-channel conductances of the appropriate magnitude (approximately equal to 11 pS in 95 mM Na+), mean open times of approximately equal to 1.9 msec, and 7-fold selectively for Na+ over K+. Currents averaged from many depolarizations showed initial voltage-dependent activation and subsequent inactivation. In the presence of batrachotoxin, channels were observed with markedly different properties, including conductances of 20-25 pS (95 mM Na+), mean open times of approximately equal to 28 msec, and no indication of inactivation. Collectively, these findings indicate that the tetrodotoxin-binding protein of electroplax is a voltage-regulated sodium channel.
从电鳗(Electrophorus electricus)的电器官中纯化得到的河豚毒素结合蛋白已被重新整合到用于膜片钳记录的多层囊泡中。当在不存在神经毒素的情况下对这些重构膜的游离膜片进行电压钳制时,记录到了电压依赖性单通道电流。这些电流在定性和定量方面显示出与神经和肌肉细胞的钠通道所报道的特性相似,包括具有适当大小的均匀单通道电导(在95 mM Na+中约等于11 pS)、平均开放时间约等于1.9毫秒,以及对Na+的选择性比对K+高7倍。多次去极化的平均电流显示出初始电压依赖性激活和随后的失活。在存在蛙毒素的情况下,观察到的通道具有明显不同的特性,包括电导为20 - 25 pS(95 mM Na+)、平均开放时间约等于28毫秒,且没有失活迹象。总体而言,这些发现表明电鳗的河豚毒素结合蛋白是一种电压调节钠通道。