Ref ID : 3776
Brian P. Eyden and Keith Vickerman; Ultrastructure and Vacuolar Movements in the Free-Living Diplomonad Trepomonas agilis Klebs. J.Protozool. 22(1):54-66, 1975
Reprint
In File
Notes
The structure of Trepomonas agilis communis Klebs is described from light and electron microscope observations on 2 clone isolates of the organism. The surface membrane shows marked differentiation into an extremely thick (16 nm) symmetric membrane which covers the greater part of the body, and a thinner (~10-12 nm) asymmetric membrane which lines the 2 lateral oral grooves and the posterior channel connecting them; a similar asymmetric membrane covers the flagella. Thorium dioxide staining suggests a denser distribution of acidic carbohydrate groups on the asymmetric membrane. The pathways of cytoplasmic streaming observed in the living flagellate coincide with those of microtubule bands arising close to the flagellar basal bodies and it is suggested that the bands play an orienting role in the streaming of food vacuoles. The contractile vacuole undergoes diastole in the anterior (postnuclear) cytoplasm, and is formed by coalescence of smaller vesicles. At systole the entire vacuole migrates to the posterior extremity to discharge into the posterior channel; the route of exit lacks guiding structural elements. Features of the flagellate's physiology and organization are discussed in relation to the observed lack of mitochondria, microbodies and Golgi apparatus in diplomonads.