![Sample our Bioscience journals, sign in here to start your access, Latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5925/TOC-Subject-Sample-2021-Bioscience.jpg"})
Abstract
An isolate of Myzocytiopsis vermicola, a holocarpic parasite of Rhabditis nematodes, was studied with transmission electron microscopy (TEM) to follow development during infection, asexual and sexual reproduction. Nematodes became infected after attachment of apical cystospore buds to the nematode cuticle. Apical buds were packed with vesicles with dense fibrillar contents, which were absent from the thallus. Some thalli developed into sporangia while others became paired gametangial cells. Zoospore cleavage was often intrasporangial, although during the early stages of an epidemic partially differentiated zoospores usually were released via an exit tube into a fine vesicle. Packets of tripartite tubular hairs (TTH) were not observed in the cytoplasm of either developing or mature sporangia. TEM of sectioned material and whole mounts of zoospores revealed biflagellate zoospores, some without hairs and others with a proximal row of very short hairs on the anterior flagellum. Gametangial contact was via a short, walled fertilization tube and surplus antheridial and oogonial nuclei remained in their respective gametangial cells until disintegration of the periplasm. The mature oospores had a scalloped, electron opaque, epispore wall layer. These observations will be discussed in relation to the likely phylogenetic position of the Myzocytiopsidales within the oomycetes.
SLG thanks the Department of Biological Sciences, Northern Illinois University for providing financing and NSF (grant No. DEB0213076) for use of light microscopy equipment for this study. We thank Gabriel Holbrook, NIU, for making the collections of horse dung from which M. vermicola was isolated, and Bob Bailey, NIU, for assistance with shadow-casting. We are grateful to Michael Dick and Steve Newell for their helpful comments during this research.