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Differentiation of the body wall musculature in Macrostomum and Hoploplana (Turbellaria, Platyhelminthes) (1995)

Rieger, R. M. ; Salvenmoser, W. ; Reiter, D. ; [et al.]

Springer

Hydrobiologia 305 (1995), S. 225-225

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ISSN: 1573-5117

Keywords: Muscle differentiation ; Macrostomida ; Polycladida ; flourescence labelling technique

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Using the Phalloidin-Rhodamine flourescence-labelling technique for F-actin, we have studied the development of the body wall musculature in Macrostomum hystricinum marinum and in thepolyclad Hoploplana inquilina. The structure of the muscle grid in the freshly hatched Macrostomum (see also Rieger & Salvenmoser, 1991) and the young larva of Holplana served as reference systems for the embryonic development of the body wall musculature. In Macrostomum muscle fiber differentiation starts around 60% of developmental time between egg-laying and hatching, and in Hoploplana around 80% of embryonic development. In Macrostomum, early stages show TV-antenna-like arrangements of one longitudinal and several circular fibers. In Hoploplana our preliminary results show a particularly large, longitudinal fiber on either side of the body. These primary longitudinal fibers may serve as a ‘founder cell’ for other longitudinal fibers and as spatial guides for the circular muscles. Similar ‘founder cells’ have been reported during early muscle differentiation in leeches (Jellies & Kristan, 1988; Jellies, 1990). In Hoploplana, a special muscle system is present at the outset under the apical organ. It consists of what seems to be a spirally toranged fiber — when seen in head-on view — and of two additional fibers crossing this spiral, from the later developing posterior to the anterior lobe. TEM-studies of embryos of Macrostomum suggest that the longitudinal nerve cords represent an important guide during early differentiation of the pattern within the body wall musculature. Young stages of myoblasts can be identified along the main lateral nerve cord. Commonly, the myoblasts are seen to alternate with young neurons in their position along the nerve cord. Embryonic stages of Macrostomum hystricinum marinum were obtained from our cultures (Rieger et al., 1988). Immediately prior to fixation (Paraformaldehyde, Stephanini's fixative) the eggshells were punctured with tungsten needles. We noted some variability of developmental time for certain embryonic stages, which we cannot explain. Developmental stages of Hoploplana inquilina were collected at the Marine Biological Laboratory, Woods Hole, MA, USA according to the procedure outlined in Boyer (1987) and Boyer (1989). They have been timed in relation to normal developmental time to an early Müller's larva at about 100 hours.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00036392

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Fine structure of the body wall, nervous system, and digestive tract in the Lobatocerebridae Rieger and the organization of the gliointerstitial system in Annelida (1981)

Rieger, R. M.

New York, NY : Wiley-Blackwell

Journal of Morphology 167 (1981), S. 139-165

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ISSN: 0362-2525

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Medicine

Notes: The new family Lobatocerebridae, Rieger, contains a group of turbellariomorph worms in the annelid line of evolution. The fine structural organization of the body wall, the digestive tract, and parts of the central and peripheral nervous system are described and the findings are discussed in light of general invertebrate cytology. The epidermis and gastrodermis contain a basal granule cell system which is structurally very similar to the neuroglia cell system of the nervous system. The continuity of the neuroglia cell system, and the epidermal basal granule cell system and the basal granule cell system in the digestive epithelia suggests the existence of a single glial-basal granule cell system, similar to the gliointerstitial cell system first recognized in the Mollusca (see Nicaise, '73). The Annelida may show a dual (ectodermal and mesodermal) origin of such a gliointerstitial cell system as suggested by similarities in the epidermal basal cell system in the Oligochaeta and of certain epidermal and gastrodermal cells in polychaete regeneration with neuroglia in the Annelida. The structural similarity of neuroglia and basal granule cells in Lobatocerebridae may be the result of similarity in the formation, maintenance, or regulation of the extracellular matrix.

Additional Material: 11 Ill.