BACKGROUND: There has never been a study of the components of germ cells as they progress through spermatogenesis. METHODS: The structural changes taking place in rat germ cells, from spermatogonia to late spermatids, were studied utilizing morphometric techniques conducted largely at the ultrastructural level. RESULTS: Volume and surface area parameters for virtually all cellular and subcellular features were obtained for nine periods during the spermatogenic cycle. Virtually all germ cell components show dynamic properties associated with specific phases of their development. CONCLUSIONS: The data provided can be used in an objective way to characterize structural changes taking place during spermatogenesis and to relate those structural changes to functional properties of germ cells.
BACKGROUND: There has never been a study of the components of germ cells as they progress through spermatogenesis. METHODS: The structural changes taking place in rat germ cells, from spermatogonia to late spermatids, were studied utilizing morphometric techniques conducted largely at the ultrastructural level. RESULTS: Volume and surface area parameters for virtually all cellular and subcellular features were obtained for nine periods during the spermatogenic cycle. Virtually all germ cell components show dynamic properties associated with specific phases of their development. CONCLUSIONS: The data provided can be used in an objective way to characterize structural changes taking place during spermatogenesis and to relate those structural changes to functional properties of germ cells.
Authors: Eriklis Nogueira; Filip Tirpák; Lauren E Hamilton; Michal Zigo; Karl Kerns; Miriam Sutovsky; JaeWoo Kim; Dietrich Volkmann; Luca Jovine; Jeremy F Taylor; Robert D Schnabel; Peter Sutovsky Journal: Front Cell Dev Biol Date: 2022-04-05