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脊椎动物视杆细胞稳态适应中的背景与漂白等效性。

Background and bleaching equivalence in steady-state adaptation of vertebrate rods.

作者信息

Leibovic K N, Dowling J E, Kim Y Y

出版信息

J Neurosci. 1987 Apr;7(4):1056-63. doi: 10.1523/JNEUROSCI.07-04-01056.1987.

DOI:10.1523/JNEUROSCI.07-04-01056.1987
PMID:3106587
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6568998/
Abstract

We have investigated background and bleaching adaptation in vertebrate rods by intracellular recording in the retina of Bufo marinus. Backgrounds and bleaching produce adaptation in photoreceptors and lead to a shift and a compression of the response operating range. Threshold elevation due to backgrounds follows the Rose-DeVries rule at low intensities and the Weber-Fechner rule at high intensities. Threshold elevation due to bleaching is linear almost up to 17% bleached pigment and exponential thereafter. An equivalence can be established between bleaching and backgrounds with respect to threshold elevation, on the one hand, and with respect to response compression, on the other. These equivalences are the same within experimental error. The equivalence, moreover, appears to extend to the complete response curve. These results have implications for psychophysics as well as for photoreceptor transduction.

摘要

我们通过对海蟾蜍视网膜进行细胞内记录,研究了脊椎动物视杆细胞的背景适应和漂白适应。背景和漂白会在光感受器中产生适应,并导致反应操作范围的偏移和压缩。低强度时,背景引起的阈值升高遵循罗斯 - 德弗里斯法则,高强度时遵循韦伯 - 费希纳法则。漂白引起的阈值升高在漂白色素达到近17%之前几乎呈线性,之后呈指数变化。一方面,在阈值升高方面,另一方面,在反应压缩方面,漂白和背景之间可以建立等效关系。在实验误差范围内,这些等效关系是相同的。此外,这种等效关系似乎延伸到了完整的反应曲线。这些结果对视心理学以及光感受器转导都有启示。

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