Your search keyword '"Heliophrya erhardi"' showing total 2 results

1. Ultrastructure of the Fusion Area during Conjugation in the SuctorianHeliphrya erhardi(Rieder) Matthes*

Author

H. Norbert Lanners

Subjects

Ventral side, Anatomy, Biology, Fibril, Heliophrya erhardi, Cell membrane, medicine.anatomical_structure, Membrane, Microtubule, Cytoplasm, Ultrastructure, medicine, Biophysics, Parasitology

Abstract

SYNOPSIS. The suctorian Heliophrya erhardi (Rieder) Matthes is attached to the substrate by the flattened ventral side of the cell body. The dorsal is covered by a pellicle composed of 3 unit membranes. Below the pellicle is a 0.4–0.8-μm thick epiplasm composed of 6–8-nm thick fibrils. Microtubules form a network beneath the epiplasm. The epipalsm is penetrated by tube-like pellicular pits, which are lined by the cell membrane and end beneath the epiplasm in a saccule-like enlargement. During conjugation, 2 neighboring organisms form cytoplasmic processes which come into contact and fuse, thus forming a cytoplasmic bridge between the 2 cells. Around the bridge the pellicles of both organisms fuse, and the partners become united by a continuous common membrane system. Across the entire conjugation bridge the 2 fused epiplasms form a septum. Tube-like structures can be seen lying partly in the epiplasmic septum and partly in the adjacent cytoplasm. These structures are open at both ends and represent remnants of the pellicular pits. No trace of the original pellicular membranes can be found at the fusion area within the epiplasmic septum. The cytoplasm of the conjugation partners is separated only by the fused epiplasms forming the epiplasmic septum.

Published

1978

2. Pronuclei of Heliophrya erhardi Matthes during conjugation and their differential association with coated and uncoated microtubules

Author

H.N. Lanners

Subjects

Ciliate, Cell Nucleus, Pronucleus, Cell Biology, Anatomy, Biology, biology.organism_classification, Microtubules, Heliophrya erhardi, law.invention, Cell nucleus, Microscopy, Electron, medicine.anatomical_structure, Microtubule, Cytoplasm, law, Conjugation, Genetic, medicine, Biophysics, Animals, Microscopy, Phase-Contrast, Electron microscope, Ciliophora, Nucleus

Abstract

Microtubules surrounding the pronuclei during conjugation of the suctorian ciliate Helio-phrya erhardi can be divided into 2 distinct classes by electron microscopy. Microtubules around the stationary nucleus have a conventional appearance and presumably serve as a skeleton, anchoring that nucleus in its cytoplasmic position. Microtubules surrounding the prospective migratory nucleus are coated with electron-dense material and are in some cases associated with 7-nm filaments. These coated microtubules supposedly function to transport the migratory nucleus into the conjugation partner.

Published

1980