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Spermiogenesis in caecilians Ichthyophis tricolor and Uraeotyphlus cf. narayani (Amphibia: Gymnophiona): Analysis by light and transmission electron microscopy
Author(s) -
Smita Mathew,
George Jancy M.,
Girija R.,
Akbarsha M.A.,
Oommen Oommen V.
Publication year - 2004
Publication title -
journal of morphology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.652
H-Index - 74
eISSN - 1097-4687
pISSN - 0362-2525
DOI - 10.1002/jmor.10258
Subject(s) - acrosome , centriole , spermiogenesis , biology , spermatid , axoneme , anatomy , spermatozoon , nucleus , ultrastructure , flagellum , sperm , microbiology and biotechnology , basal plate (neural tube) , botany , genetics , pregnancy , fetus , semen , gene , placenta
Spermiogenesis, known as spermateleosis in lower vertebrates, is the transformation of the round spermatid into a highly specialized spermatozoon with a species‐specific structure. Spermateleosis and sperm morphology of two species of caecilians, Ichthyophis tricolor and Uraeotyphlus cf. narayani , from the Western Ghats of Kerala, India, were studied using light and transmission electron microscopy. Spermateleosis is described in early, mid‐, and late phases. During the early phase, the spermatid nucleus does not elongate, but the acrosome vesicle is Golgi‐derived and its material is produced as a homogeneous substance rather than as discrete granules. In development of the acrosome, the centrioles shift in position to the lower half of the cell. The acrosomal vesicles take the full shape of the acrosome with the establishment of the perforatorium in midphase. An endonuclear canal develops and accommodates the perforatorium. The incipient flagellum is laid down when the proximal centriole attaches to the posterior side of the nucleus and the distal centriole connects to the proximal centriole, which forms the basal granule of the acrosome. The axial fiber also appears during midphase. The mitochondria shift in position to the posterior pole of the cell to commence establishment of the midphase. Late phase is characterized by nuclear condensation and elongation. Consequently, the final organization of the sperm is established with the head containing the nucleus and the acrosome. The undulating membrane separates the axoneme and axial fiber. Most of the cytoplasm is lost as residual bodies. J. Morphol. 262:484–499, 2004. © 2004 Wiley‐Liss, Inc.