Comparative Spiralian Oogenesis-Structural Aspects: An Overview

Comparative Spiralian Oogenesis-Structural Aspects: An Overview

Considerable variety exists in ovarian structure and cellular interaction in spiralians. During their development the eggs of Diopatra cuprea, are associated with nurse cells; there are no follicle cells in this species. The nurse cells have prominent nuclei and connect to oocytes via cytoplasmic br...

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Bibliographic Details
Published in:American zoologist Vol. 16; no. 3; pp. 315 - 343
Main Authors: Huebner, Erwin, Anderson, Everett
Format: Journal Article
Language:English
Published: American Society of Zoologists 01-08-1976
Subjects:
Eggs
Embryogenesis
Follicles
Gametogenesis and Fertilization
Leydig cells
Mitochondria
Nurses
Oocytes
Oogenesis
Ova
Ovaries
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Summary:Considerable variety exists in ovarian structure and cellular interaction in spiralians. During their development the eggs of Diopatra cuprea, are associated with nurse cells; there are no follicle cells in this species. The nurse cells have prominent nuclei and connect to oocytes via cytoplasmic bridges through which ribosomes, mitochondria and other inclusions pass. More commonly, follicle cells surround a portion of, or entire, oocytes in many species of spiralians. Usually, as in Ilyanassa, they have a well developed compliment of organelles. The structure and distribution of organelles within follicle cells implies that they are functionally active, but precisely in what manner during oogenesis is poorly understood. Other cell types, such as Leydig and interstitial cells also seem to play a role in oogenesis. Within the oocyte, a host of components including yolk, lipid, mitochondria, ribosomes, membranous cisternae, cortical granules, etc. are accumulated. Autosynthetic yolk formation is prevalent among spiralians. Surface differentiation includes microvillar development. This may be uniform in some eggs or restricted to certain regions (e.g., the animal hemisphere) in other oocytes. Oocyte-follicle cell interactions change during oogenesis. The topographical association of the oocyte with other ovarian cells influences subsequent animal-vegetal polarity and other ooplasmic differences. Examples of ooplasmic localizations are discussed. Conventional EM has revealed no unusual cortical structure in many oocytes although occasionally microtubules and microfilaments are present.
ISSN:0003-1569
2162-4445
DOI:10.1093/icb/16.3.315