Evolution of the endoplasmic reticulum during spermiogenesis of the rooster: An electron microscopic study
1986
The endoplasmic reticulum (ER) of rooster's spermatids was analyzed during spermiogenesis, which was subdivided into eight distinct steps on the basis of changes observed with the electron microscope in the nucleus, acrosome-perforatorium system, manchette, and flagellum. In steps 1 and 2, spermatids' ER cisternae presented the following specializations: (1) A loose network of tubular cisternae was distributed throughout the cytoplasm. (2) Six to eight tight networks of anastomosed tubular cisternae parallel to each other were closely stacked to form a discoid body (1.5–2.5 μm in diameter and 0.5–0.8-μm thick) in which spheroidal vesicles (0.4 μm in diameter) were inserted. Close to and connected with this body, called the alveolar body, there was a stack of annulate lamellae. (3) Large, flattened ER cisternae were seen singly or in piles of two or three running parallel to the nuclear surface. (4) A collection of tubular ER cisternae faced plaques of thickened plasma membranes. These elements of the ER system appear continuous with each other. During steps 3–5 of spermiogenesis, no modification of the alveolar body-annulate lamellae complex was noted; the large flattened ER cisternae disappeared, however, and the broad network of tubular cisternae developed markedly. During steps 6 and 7, the latter network of tubular cisternae fragmented into vesicles that swelled to give a vacuolated appearance to the cytoplasm. The alveolar body-annulate lamellae complex remained visible until late step 7, when it disintegrated just before spermiation. Thus the system of ER cisternae underwent marked structural modifications during spermiogenesis.
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