Daw N W, Pearlman A L
J Gen Physiol. 1974 Jan;63(1):22-36. doi: 10.1085/jgp.63.1.22.
The migration of the screening pigment was investigated in the retina of the intact squid. The action spectrum of pigment migration corresponds to the action spectrum of the visual pigment, rhodopsin, rather than to the absorption spectrum of the screening pigment. The total number of quanta required for a fixed criterion of pigment migration is the same, when the quanta are delivered over any period of time from 6 s to an hour or more. When less than 3-10% of the rhodopsin is isomerized, the screening pigment migrates out to the tips of the receptors with a time-course of 5-15 min, and back again over the same period of time. When rather more than 10% is isomerized, the outward migration takes 5-15 min, but the screening pigment does not migrate inwards, even after several hours in the dark. Indirect evidence suggests that the band of screening pigment, when it reaches the tips of the receptors, is approximately equivalent to a filter of 0.6 log units. The spectral sensitivity of the optic nerve response was measured, and was found to be broader than the absorption spectrum of squid rhodopsin in vitro; the broadness could be explained by self-screening, assuming a density of rhodopsin of 0.6 log units at 500 nm.
在完整的鱿鱼视网膜中研究了遮光色素的迁移。色素迁移的作用光谱与视觉色素视紫红质的作用光谱相对应,而不是与遮光色素的吸收光谱相对应。当在从6秒到1小时或更长时间的任何时间段内传递量子时,达到色素迁移固定标准所需的量子总数是相同的。当少于3%-10%的视紫红质异构化时,遮光色素在5-15分钟的时间进程内迁移到感受器的尖端,然后在相同的时间段内再迁移回来。当异构化的视紫红质超过10%时,向外迁移需要5-15分钟,但即使在黑暗中放置数小时后,遮光色素也不会向内迁移。间接证据表明,遮光色素带到达感受器尖端时,大约相当于一个0.6对数单位的滤光片。测量了视神经反应的光谱敏感性,发现其比体外鱿鱼视紫红质的吸收光谱更宽;假设在500nm处视紫红质的密度为0.6对数单位,这种宽度可以通过自我筛选来解释。