非洲爪蟾的视杆敏感度和视觉色素浓度

Rod sensitivity and visual pigment concentration in Xenopus.

作者信息

Engbretson G A, Witkovsky P

出版信息

J Gen Physiol. 1978 Dec;72(6):801-19. doi: 10.1085/jgp.72.6.801.

DOI:10.1085/jgp.72.6.801

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2228491/

Abstract

Xenopus larvae were raised on a vitamin A-free diet under constant illumination until their visual pigment content had decreased to between 8% of normal and an undetectably low level. After the intramuscular injection of 2.1 X 10(13-2.1 X 10(16) molecules of [3H]vitamin A, ocular tissue showed a rapid rate of uptake of label which reached a maximum level of incorporation by 48 h. Light-microscopic autoradiography revealed that the retinal uptake of label was concentrated within the receptor outer segments. Spectral transmissivity measurements at various times after injection were made upon intact retinas and upon digitonin extracts. They showed that visual pigment with a lambdamax of 504 nm was formed in the retina and that the amount formed was a function of incubation time and the magnitude of the dose administered. Electrophysiological measures of photoreceptor light responses were obtained from the PIII component of the electroretinogram, isolated with aspartate. The quantal flux required to elicit a criterion response was determined and related to the fraction of visual pigment present. The results showed that rod sensitivity varied linearly with the probability of quantal absorption.

摘要

非洲爪蟾幼体在持续光照下以不含维生素A的饲料饲养，直至其视觉色素含量降至正常水平的8%至低到无法检测的水平之间。在肌肉注射2.1×10¹³至2.1×10¹⁶个[³H]维生素A分子后，眼部组织显示出快速摄取标记物的速率，到48小时时达到最大掺入水平。光学显微镜放射自显影显示，视网膜对标记物的摄取集中在受体外段。在注射后不同时间对完整视网膜和洋地黄皂苷提取物进行光谱透射率测量。结果表明，视网膜中形成了最大吸收波长为504nm的视觉色素，且形成的量是孵育时间和给药剂量大小的函数。通过用天冬氨酸分离视网膜电图的PIII成分，获得了光感受器光反应的电生理测量结果。确定了引发标准反应所需的量子通量，并将其与存在的视觉色素分数相关联。结果表明，视杆细胞敏感性与量子吸收概率呈线性变化。

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