光感受器膜电流的离子分析
Ionic analysis of photoreceptor membrane currents.
作者信息
Zuckerman R
出版信息
J Physiol. 1973 Dec;235(2):333-54. doi: 10.1113/jphysiol.1973.sp010390.
Abstract
- Membrane current was derived from simultaneous measurements of interstitial ;dark' voltages and conductivities along the radial axis of frog photoreceptor cells. Membrane current was subsequently resolved into its component ionic currents or fluxes by means of ionic substitution and by the use of inhibitors of active transport.2. The plasma membrane of the frog rod outer segment was found to be permeable to Na(+) and Cl(-), with a ratio of Na(+) to K(+) permeabilities higher than that found in most neuronal cells. A net inward flux of 1.5 x 10(8) Na(+)/sec.rod flows across the outer segment plasma membrane in the dark.3. The proximal portion of the rod receptor, extending from the proximal region of the inner segment to the synaptic terminal, is mainly permeable to K(+), although some degree of Na(+) permeability is also presumed.4. A hyperpolarizing electrogenic Na pump was localized to the base of the outer segment and inner segment of the cell. The pump transfers at least 10(8) charges/sec out of the cell at this level, the pump current dividing and re-entering the cell at both the outer segment and proximal portion of the photoreceptor including the synaptic terminal.5. These findings have been incorporated into an ionic model of the photoreceptor, and its implications for cellular functioning considered.
摘要
膜电流源自对青蛙光感受器细胞径向轴上间隙“暗”电压和电导率的同步测量。随后,通过离子置换以及使用主动转运抑制剂,将膜电流分解为其组成的离子电流或通量。
发现青蛙视杆细胞外段的质膜对Na(+)和Cl(-)具有通透性,Na(+)与K(+)的通透性之比高于大多数神经元细胞。在黑暗中,每秒有1.5×10(8)个Na(+)通过视杆细胞外段质膜向内净流动。
视杆感受器的近端部分,从内段的近端区域延伸至突触末端,主要对K(+)具有通透性,不过也推测存在一定程度的Na(+)通透性。
一个超极化的生电钠泵定位于细胞外段和内段的基部。在此水平,该泵每秒将至少10(8)个电荷转运出细胞,泵电流在视杆细胞的外段和包括突触末端在内的近端部分进行分流并重新进入细胞。
这些发现已被纳入光感受器的离子模型中,并对其对细胞功能的影响进行了考量。
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