深海鱼类视觉色素的种间差异。

Interspecific variation in the visual pigments of deep-sea fishes.

作者信息

Partridge J C, Shand J, Archer S N, Lythgoe J N, van Groningen-Luyben W A

机构信息

Department of Zoology, University of Bristol, United Kingdom.

出版信息

J Comp Physiol A. 1989 Jan;164(4):513-29. doi: 10.1007/BF00610445.

DOI:10.1007/BF00610445

PMID:2926694

Abstract

Visual pigments in the rods of 38 species of deep-sea fish were examined by microspectrophotometry. 33 species were found to have a single rhodopsin with a wavelength of maximum absorbance (lambda max) in the range 470-495 nm. Such visual pigments have absorbance maxima close to the wavelengths of maximum spectral transmission of oceanic water. 5 species, however, did not conform to this pattern and visual pigments were found with lambda max values ranging from 451 nm to 539 nm. In 4 of these species two visual pigments were found located in two types of rod. Some 2-pigment species which have unusual red sensitivity, also have red-emitting photophores. These species have both rhodopsin and porphyropsin pigments in their retinae, which was confirmed by HPLC, and the two pigments are apparently located in separate rods in the same retinal area. In deep-sea fishes the occurrence of 'unusual' visual pigments seems to be correlated with aspects of the species' depth ranges. In addition to ecological influences we present evidence, in the form of lambda max spectral clustering, that indicates the degree of molecular constraint imposed on the evolution of visual pigments in the deep-sea.

摘要

通过显微分光光度法对38种深海鱼类视杆细胞中的视觉色素进行了检测。发现33种鱼类具有单一视紫红质，其最大吸收波长（λmax）在470 - 495纳米范围内。这种视觉色素的最大吸收值接近海水最大光谱透射率的波长。然而，有5种鱼类不符合这种模式，发现其视觉色素的λmax值在451纳米至539纳米之间。在其中4种鱼类中，在两种类型的视杆细胞中发现了两种视觉色素。一些具有异常红色敏感性的双色素物种也有发红光的发光器。通过高效液相色谱法证实，这些物种的视网膜中既有视紫红质色素又有视紫蓝质色素，并且这两种色素显然位于同一视网膜区域的不同视杆细胞中。在深海鱼类中，“异常”视觉色素的出现似乎与物种深度范围的某些方面相关。除了生态影响外，我们还以λmax光谱聚类的形式提供了证据，表明了对深海视觉色素进化施加的分子约束程度。

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本文引用的文献

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深海鱼类视觉色素的种间差异。

Interspecific variation in the visual pigments of deep-sea fishes.

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