The Ultrastructure of Spermiogenesis Within the Seminiferous Epithelium of the Texas Horned Lizard, Phrynosoma cornutum (Phrynosomatidae)

Currently, there is limited histological data for spermatid morphologies within the testes of squamates. There are only 10 species of lizard that have complete ultrastructural data across the entire process of spermiogenesis, including several species of Sceloporus. These studies have shown that dif...

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Veröffentlicht in:Journal of morphology (1931) 2024-12, Vol.285 (12), p.e70008
Hauptverfasser: Gribbins, Kevin M, Rajaguru, Sethmini, Rheubert, Justin L, Trauth, Stanley E
Format: Artikel
Sprache:eng
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Zusammenfassung:Currently, there is limited histological data for spermatid morphologies within the testes of squamates. There are only 10 species of lizard that have complete ultrastructural data across the entire process of spermiogenesis, including several species of Sceloporus. These studies have shown that differences can be seen between spermatids of saurians within the same family or genus. Thus, the present study continues to test the hypothesis that differences exist in spermatid morphology between species within the same family. We collected five Phrynosoma cornutum males from Arizona. Their testes were extracted and processed with standard TEM techniques. Many of the characteristics of spermiogenesis within P. cornutum are conserved and similar in morphology to other phrynosomatid lizards. These similarities include the development of the acrosome, perforatorium, subacrosomal cone, nuclear rostrum, and epinuclear lucent zone. However, there were also differences observed in P. cornutum spermatids that are distinct compared to other phyrnosomatids. For example, P. cornutum spermatids include a wider and more robust perforatorium and less spiraling of the chromatin during condensation than that of other phrynosomatid lizards. The present results corroborate previous studies and indicate that even with morphological conservation within saurian spermatids, character differences between species can be recognized. Further studies on spermiogenesis are required to judge the relevance of these ontogenetic changes in terms of using them in amniotic or squamate spermatid/spermatozoa phylogenic analysis.
ISSN:0362-2525
1097-4687
1097-4687
DOI:10.1002/jmor.70008