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Light and electron microscopic study of the bacterial adhesion to termite flagellates applying lectin cytochemistry (1996)

Radek, Renate ; Rösel, Joachim ; Hausmann, Klaus

Springer

Protoplasma 193 (1996), S. 105-122

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ISSN: 1615-6102

Keywords: Antibiotics ; Bacterial adhesion ; Devescovina glabra ; Ectobiote ; Flagellate ; Joenia annectens ; Lectin ; Microrhopalodina multinudeata ; Stephanonympha nelumbium ; Termite

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Many of the flagellates inhabiting the hindgut of lower termites are associated with ectobiotic, rod-like bacteria or spirochetes. Different types of attachment sites are present. Electron dense material underlies, e.g., the plasma membrane ofJoenia annectens at the contact site, whereas other attachment sites do not show any visible specializations. The host cell's glycocalyx may, however, be reduced at the attachment sites as it is the case inDevescovina glabra. The thick glycocalyx ofStephanonympha nelumbium is not changed at the sites where bacterial rods attach, but spirochetes penetrate to a certain extent. Bacteria which colonize the extracellular surface structures ofMicrorhopalodina multinucleata express their own glycocalyx to mediate a contact. In this study we focussed on the examination of one common mode of interaction between bacteria and their host cells, i.e., adhesion via lectins and sugars. The sugar composition was analysed by light and electron microscopic labelling experiments using the lectins Con A, WGA and SBA. In general, only the posterior body surface ofJoenia which is colonized with bacteria is labelled. The demonstrated sugars are found in fibrous glycocalyx portions surrounding the attachment sites of the bacteria. Such glycocalyx fibres in combination with the electron dense material supporting the attachment sites seem to be the prerequisites for bacterial attachment. InD. glabra, however, a role for sugars in mediating the attachment could not be demonstrated. Removal of the ectobiotes using antibiotics revealed that the specialized contact sites ofJoenia are present in the absence of bacteria and thus possibly serve to attract bacteria. Nothing, however, remains of the former attachment sites in bacteria-freeDevescovina cells. Attachment sites in this case could be induced by bacterial contact. There is not one general mechanism for bacterial attachment to termite flagellates; rather, adhesion seems to follow different strategies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01276639

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Cytologische Studien an Trichocysten (1973)

Hausmann, Klaus ; Wohlfarth-Bottermann, Karl-Ernst

Springer

Cell & tissue research 140 (1973), S. 235-259

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ISSN: 1432-0878

Keywords: Ciliated protozoa ; Loxophyllum and Prorodon ; Trichocysts ; Toxicysts ; Expulsion mechanism ; Electron microscopy

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Description / Table of Contents: Zusammenfassung Die Nesselkapseltrichocysten der Ciliaten Loxophyllum und Prorodon wurden hinsichtlich ihrer Feinstruktur sowie des Ausschleuderungsablaufes untersucht. Loxophyllum besitzt zwei morphologisch unterscheidbare Sorten von Toxicysten, wohingegen Prorodon nur eine Art dieser Organelle aufweist (Krüger, 1936). Wie an Hand gehemmter Stadien gezeigt werden kann, verläuft die Ausschleuderung bis auf geringfügige Variationen bei den drei Sorten in der gleichen Art: Schläuche, die im ruhenden Zustand bereits in den endgültigen Dimensionen in der Toxicystenkapsel eng ineinandergeschachtelt vorliegen, werden handschuhfingerförmig umgestülpt und verlassen hierdurch die Kapsel und damit den Zellkörper. Dieser Prozeß ist mit der Ausscheidung einer teils fädigen, teils amorphen Substanz gekoppelt. Der Umstülpungsvorgang der Innenstruktur der Nesselkapseltrichocysten wird mit den völlig andersartigen, während der Ausschleuderung von Mucocysten und Spindeltrichocysten ablaufenden morphologischen Veränderungen verglichen. Es zeigte sich, daß aufgrund ihrer differierenden Feinstrukturen und Funktionsweisen in den Nesselkapseltrichocysten einerseits und in den Mucocysten sowie Spindeltrichocysten andererseits zwei grundsätzlich voneinander verschiedene Organellentypen gesehen werden müssen.

Notes: Summary The toxicysts of the ciliates Loxophyllum meleagris and Prorodon teres were examined with regard to fine structure and expulsion mechanism. Loxophyllum possesses two morphologically distinct types of toxicysts, whereas in Prorodon only one type is present. As can be shown by discharge inhibition experiments, the expulsion mechanisms, except for small variations, are identical in all three types: Tubes, which in their resting state lie closely packed one within the other possess already at this state their final dimensions; they are inverted, thereby leaving the capsule and thus the cell body. This process is correlated with the excretion of a substance partly filamentous, partly amorphous. The inversion of the tubes during the expulsion is compared to the fundamentally different morphological alterations during discharge of mucocysts and spindle trichocysts. The differences and similarities in fine structure and function between toxicysts on the one hand and mucocysts and spindle trichocysts on the other, indicate that two rather than three fundamentally different organelle types must be distinguished.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00306697

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