鸽子（家鸽）视网膜视杆细胞中的光电流：动力学和光谱敏感性。

Photocurrents in retinal rods of pigeons (Columba livia): kinetics and spectral sensitivity.

作者信息

Palacios A G, Goldsmith T H

机构信息

Department of Biology, Yale University, New Haven, CT 06511.

出版信息

J Physiol. 1993 Nov;471:817-29. doi: 10.1113/jphysiol.1993.sp019930.

DOI:10.1113/jphysiol.1993.sp019930

PMID:8120835

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1143991/

Abstract

Membrane photocurrents were recorded from outer segments of isolated retinal rods of pigeons (Columba livia), the first such measurements on the photoreceptors of a bird. The amplitude of the response to 20 ms flashes of narrow wavelength bands of light increases linearly with intensity at low photon fluxes and saturates at higher intensities. The maximum (saturating) photocurrent observed in forty-nine rod cells was 50 pA. Larger responses with less variability in the intensity for half-maximal responses were observed when the physiological saline contained 20 mM bicarbonate (in addition to Hepes buffer). 2. The dependence of peak amplitude on intensity is well fitted by an exponential function; it is usually less well fitted by the Michaelis-Menten (Naka-Rushton) equation. 3. In the presence of bicarbonate, the average sensitivity of pigeon rods to dim flashes was 0.56 pA photon-1 microns -2. The effective collecting area per photon was 1.8 microns 2. About 83 +/- 26 (mean +/- S.D.) photoisomerizations were required for a half-saturating response. 4. The response kinetics of rods to dim flashes can be reasonably well described by a series of four to five either Poisson or independent filters. The time to peak, measured from the mid-point of a 20 ms flash, was 319 +/- 83 ms (mean +/- S.D.). The integration time of the response was 851 +/- 86 ms (mean +/- S.D.) with bicarbonate present and 572 +/- 126 ms in the absence of bicarbonate. The responses of pigeon rods appear to be slower than those of mammals at the same temperature. The fraction of current suppressed by a single photoisomerization is smaller in pigeon than in mammalian rods by a factor of at least two. 5. The spectral sensitivity function was measured between 680 and 330 nm. The maximum at about 505 nm (range 497-508 nm) corresponds to the alpha-band of a vertebrate rhodopsin and agrees with previous behavioural measurements of scotopic sensitivity of pigeons as well as the absorption spectrum of extracts of pigeon rhodopsin. There was no pronounced beta-band in the near-ultraviolet wavelengths.

摘要

从鸽子（家鸽）分离的视网膜视杆细胞外段记录膜光电流，这是首次对鸟类光感受器进行此类测量。对20毫秒窄波段光闪光反应的幅度在低光子通量时随强度线性增加，在较高强度时达到饱和。在49个视杆细胞中观察到的最大（饱和）光电流为50皮安。当生理盐水中含有20毫摩尔碳酸氢盐（除了赫佩斯缓冲液）时，观察到对半数最大反应强度的变化较小且反应更大。2. 峰值幅度对强度的依赖性通过指数函数拟合良好；通常通过米氏（中谷-拉什顿）方程拟合效果较差。3. 在有碳酸氢盐存在的情况下，鸽子视杆细胞对暗光闪光的平均敏感度为0.56皮安·光子⁻¹·微米⁻²。每个光子的有效收集面积为1.8微米²。半数饱和反应大约需要83±26（平均值±标准差）次光异构化。4. 视杆细胞对暗光闪光的反应动力学可以通过一系列四到五个泊松或独立滤波器合理地很好描述。从20毫秒闪光的中点测量的峰值时间为319±83毫秒（平均值±标准差）。有碳酸氢盐存在时反应的积分时间为851±86毫秒（平均值±标准差），无碳酸氢盐时为572±126毫秒。在相同温度下，鸽子视杆细胞的反应似乎比哺乳动物的慢。单次光异构化抑制的电流分数在鸽子中比在哺乳动物视杆细胞中小至少两倍。5. 在680至330纳米之间测量光谱敏感度函数。约505纳米（范围497 - 508纳米）处的最大值对应于脊椎动物视紫红质的α带，与先前鸽子暗视觉敏感度的行为测量以及鸽子视紫红质提取物的吸收光谱一致。在近紫外波长处没有明显的β带。