Summary
The fine structure of the rat subcommissural organs from the late stages of gestation through the postnatal to the adult stages was studied with the electron microscope. Emphasis in this report is placed on the development of the cilium with its affiliated structures. With the progress of cytodifferentiation centrioles originally located in the Golgi region migrate to the cell apex, where each then serves as a basal body to form a cilium which has a 9+2 organization of substructures. Thus, each of the mature subcommissural cells is provided with two cilia of motile type. Satellites first appear on one side of the basal body at about 17 fetal days, rapidly increase in number with age, and finally surround the basal body, forming an elaborate latticework. In the perinatal period microtubules progressively increase in number in the distal cytoplasm, which concurrently elongates and forms a prominent projection in the brain ventricle. Closely associated with the microtubules are large clusters of dense granular masses with an undefined border, which bear a close resemblance to the dense masses appearing in the differentiating cells of respiratory epithelium and having been generally assumed to be the precursor substance for centriole replication. However, the mature subcommissural cells contain no centrioles other than the preexisting pair, each of which has organized a cilium. The dense masses in the subcommissural cells are presumed to be involved in the formation of the cytoplasmic microtubules instead of new centrioles.
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Work supported by the National Science Council, the Republic of China, and by the China Medical Board of New York, Inc. A preliminary report was presented at the 6th International Congress for Electron Microscopy, Kyoto, 1966 (Lin, H.-S., andI-1. Chen: Satellites of the ciliary basal body and microtubules in the cells of the rat subcommissural organ. In: Electron Microscopy (R. Ueda, ed.) Vol. II, 461–462. Tokyo: Maruzen Co., Ltd. 1966).
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Lin, H.S., Chen, I.L. Development of the ciliary complex and microtubules in the cells of rat subcommissural organ. Z. Zellforsch. 96, 186–205 (1969). https://doi.org/10.1007/BF00338766
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DOI: https://doi.org/10.1007/BF00338766