A. O. Anya scite author profile

Studies of the cuticle ofAspiculuris tetrapterawith both the light and the electron microscopes have shown that there are three basic layers, namely the cortex, which consists of an outer and an inner layer, the matrix layer and the fibre layer; the latter is made up of three layers. There is, in addition, a thin osmiophilic superficial membrane on the surface of the cuticle; this membrane is seen only with the electron microscope.It is shown that the major structural protein of the cuticle, although showing no axial periodicity, is collagen; the collagen is associated with hyaluronic-acid- and chondroitin-sulphate-containing mucopolysaccharides.Evidence is presented for the existence of two centres of protein synthesis (collagen fibrogenesis) in the cuticle ofA. tetraptera, Syphacia obvelataandAscaris lumbricoides.These centres are located in the inner cortex and the hypodermis. The cuticle is thus very active metabolically.I wish to acknowledge with thanks the facilities afforded me at the Molteno Institute during the course of these studies by the Director, Dr P. Tate. My thanks are also due to Dr D. L. Lee for his encouragement and helpful discussions during the investigations.

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Studies on the structure of the female reproductive system and egg-shell formation inAspiculuris tetrapteraSchulz, (Nematoda: Oxyuroidea)

Anya

1964

Parasitology

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The histological anatomy of the female reproductive system of an oxyuroid nematode,Aspiculuris tetraptera, Schulz, has been described.The process of egg-shell formation in this animal has been followed in detail while the structural and chemical characteristics of the egg-shell have been studied by histochemical and other methods. It is shown that there are three layers: a lipoprotein layer, a ‘chitinous’ layer and the so-called vitelline (glycosidal) membrane. Evidence is presented for the exogenous origin of the lipoprotein layer: this being formed by the cells of the upper uterus which are shown to be secretory.The question of quinone-tanning in the egg-shell ofA. tetrapteraand in other oxyuroids and ascarids is considered. It is shown that neither a polyphenol oxidase nor a high concentration of phenolic substances (apart from protein tyrosine) exists in this system. The significance of these and other observations is discussed in relation to the mechanism of tanning as elucidated in insects and trematodes.I have to acknowledge with gratitude the support of many during these investigations. To Dr P. Tate for his encouragement and provision of facilities at the Molteno Institute; to Dr D. L. Lee, for much useful discussion and permission to refer to some of his unpublished electron micrographs of nematodes; to Professor J. D. Smyth, who kindly read through the manuscript; to the Cambridge Philosophical Society for a grant that made possible the translation of Fauré-Frémiet's classical study onAscaris;and to the Department of Technical Cooperation for financial assistance.

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A. O. Anya

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The structure and chemical composition of the nematode cuticle. Observations on some oxyurids andAscaris

Studies on the structure of the female reproductive system and egg-shell formation inAspiculuris tetrapteraSchulz, (Nematoda: Oxyuroidea)

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