Abstract

The rapid-freezing and freeze-substitution method was applied for the ultrastructural study of the dermal chromatophores of a teleost, Oryzias latipes. The method was found to be suitable for preserving fragile membranous structures within melanophores and xanthophores. In addition, relatively high electron density in overall profile indicates that the procedure is effective in reducing the extraction of cytoplasmic ground substances that inevitably occurs during the process of conventional chemical fixation and the following dehydration. The improved ultrastructural images clearly show that the pterinosomes, the characteristic pigmentary organelles of xanthophores, are formed through several distinct developmental stages starting from the loose congregations of vesicles derived from the Golgi complex. The earlier stages of development are similar to those found in melanosome formation. Whereas carotenoid pigments in xanthophores in conventional aldehyde-osmium-fixed materials are found to be electrondense membrane-free particles, they are identified as membrane-bounded organelles in the present study. The envelope of these carotenoid vesicles does not exhibit a typical trilaminar structure but appears to be an extremely thin membrane. Carotenoid vesicles are, in most cases, in direct contact with the outer surface of tubular endoplasmic reticulum.

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