Parasitology, Harold W. Manter Laboratory of

 

Date of this Version

9-1974

Citation

Zeitschrift für Parasitenkunde 44:3 (September 1974), pp. 169–186.

doi: 10.1007/BF00328760

Comments

Copyright © 1974 Springer-Verlag. Used by permission.

Abstract

The new genus Inodosporus was erected to accept I. spraguei, a new species having eight sporoblasts per pansporoblast with each subsequent spore possessing three or four basal spore-tails and one branched apical one. It is primarily by the apical tail that the species is separated from the only other recognized species, I. octospora (Henneguy, 1892) comb. n., formerly Thelohania octospora.

Spore-tails of I. spraguei are membranous channels which originate within differentiating pansporoblasts during genesis of sporonts into sporoblasts. During the switch from vegetative to spore-forming development, cytoplasmic constituents of I. spraguei segregate into two distinctive domains for which we originate the terms “pansporoblast-determinate area” (PDA) and “sporont-determinate area” (SDA). Membrane channels, which form spore-tails, develop within the PDA.

The following observations indicate that the tails of I. spraguei are continuous with the outer pansporoblast envelope: lanthanum marker readily penetrates pansporoblasts and localizes in channels, in spore-tail attachment points, and between extra-sporoblast membrane and sporoblasts; a positive reaction for adenosine triphosphatase product accumulates within spore-tails at their sites of attachment to sporoblasts; and spore-tails occasionally remain attached to pansporoblast envelopes after mechanical disruption.

An extensive PAS-positive glycocalyx-like material is found within newly developing pansporoblasts. This observation, plus the presence of an apparent adenosine triphosphatase system on pansporoblast membranes, indicates that the pansporoblast may serve as a molecular or ion transport system during initial phases of sporont differentiation.

Inodosporus spraguei infects each muscle fiber completely until filaments are destroyed, and infections are spread throughout the animal until most fibers are infected. Curiously, uninfected muscle cells seldom show serious pathological changes caused by massive infections of neighboring cells.

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