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71.
Summary Ultrastructural analyses of retinal development in the guppy embryo show that at midgestation all types of photoreceptors are differntiated in the fundus, and at birth differentiation extends over the whole retina. Formation of discs of outer segments is more rapid in rods than in cones. Double cones differentiate simultaneously with long single cones and are formed by the adhesion of two primordial inner segments; short single cones develop last. Wherever cones are differentiated, they are arranged in an adult-type square mosaic. The rods in the embryo, as opposed to the adult, are likewise regularly arranged within the mosaic unit.These results are at variance with the generally held opinion that adult teleosts which possess duplex retinae have larvae with pure cone retinae, and that rods, double cones and mosaics appear in late larval life or only at metamorphosis.In the double cones of the guppy embryo subsurface cisternae develop along the adjoining primordial inner segments. Additionally, regularly distributed subsurface cisternae are formed in the regions of intimate contact of long single cones with double cones and rods.We suggest that the early development of rods and double cones, and a square-mosaic with regular distribution of rods and subsurface cisternae, provide the newly born with a fully functional optical apparatus, especially suited to perception of movements. This is necessary for its survival against predatory, especially maternal, attacks.This work was in part subsidized by a grant from the Medical Research Council of Ireland to Y.W.K. 相似文献
72.
Dr. M. Grönblad 《Cell and tissue research》1983,229(3):627-637
Extensive secretion by exocytosis was demonstrated in the glomus (type I) cells of the adult rat after perfusion of carotid bodies with a potassium-rich (high K) glutaraldehyde fixative. Similar secretory profiles were very rare with a glutaraldehyde fixative containing a low concentration of potassium (low K). The increase in the incidence of exocytotic profiles in glomus cells with the high K fixative was highly significant, whereas no statistical difference could be observed in the incidence of coated pits with the different fixatives. Exocytotic profiles were characterized by the following features: (1) they predominated in non-synaptic regions, but were occasionally observed near synapses between two glomus cells; they were not observed near synapses between glomus cells and nerve terminals; (2) extruded electron-dense material associated with coating of the cell membrane was frequent; (3) different stages of dissolution of the extruded granule material was evident. The possible role of exocytosis as a mode of secretion in the glomus cells and the characteristics of the new high K-glutaraldehyde fixative are discussed. 相似文献
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75.
The identification and regionalization of four pituitary parenchymal cell types, gonadotrophs, mammotrophs, somatotrophs and thyrotrophs, were studied in the baboon (Papio cynocephalus) hypophysis using immunocytochemistry. The gonadotrophs were homogeneously distributed throughout the entire pars distalis. Both mammotrophs and somatotrophs predominate at the superior and inferior poles of the organ. The medial and anteromedial regions are populated by mammotrophs and thyrotrophs, while the lateral and posterior portions of the pars distalis contain large numbers of somatotrophs. 相似文献
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Dr. Norbert Rieder 《Zoomorphology》1972,73(4):361-380
Zusammenfassung Die Cuticula von Triops cancriformis besteht aus Endo-, Exo- und Epicuticula. Die Epicuticula ist aus vier Schichten aufgebaut, die Exocuticula aus 10 und die Endocuticula aus 60–80. Die Schichten der Endocuticula sind aus annähernd oberflächenparallel verlaufenden Mikrofibrillen, die zu Lamellulae zusammentreten, gebildet. Diese Lamellulae atehen senkrecht zur Oberfläche. Die Lamellulae der einzelnen Lagen verlaufen im rechten Winkel zu denen der Nachbarlagen. In Sinnesborsten verläuft so ein Teil der Fibrillen in Längsrichtung, der andere quer zur Längsachse.Polysaccharide finden sich in den Lamellulae, in zwei Schichten der Epicuticula, den Desmosomen und als Glykogengranula in Epidermiszellen.Die Häutung zeigt anscheinend keine Besonderheiten gegenüber anderen Arthropoden.
Ultrastructure and polysaccharide content of the cuticle of Triops cancriformis Bosc. (Crustacea, Notostraca) during the Molting preparation
Summary The cuticle of Triops cancriformis consists of endo-, exo- and epicuticle. The epicuticle comprises 4 layers, the epocuticle 10 and the endocuticle 60–80 layers. The layers of the endocuticle consist of microfibrils. These microfibrils are almost parallel to the surface of the cuticle and merge into lamellulae. These lamellulae run vertical to the surface. The lamellulae in any one layer are at right angles to the lamellulae in the neighbouring layers. Thus, some of the fibrils in sensory setae are parallel to the longitudinal axis and others are perpendicular to it.Polysaccharides are found in the lamellulae, in two layers of the epicuticle, in the attachment regions and in the glycogen deposits in the epidermis cells.The molting process seems to be similar to the molting process of other arthropoda.相似文献
79.
Dr. Uwe Hiller 《Zoomorphology》1972,73(3):263-278
Zusammenfassung Kurz nach einer Hdutung wird bei Tarentola m. m. bereits die übemächste Epidermisgeneration — und somit auch die der Haftborsten —angelegt. Das geschieht vornehmlich in der Oz- (Oberhäutchenzellen-) und in der Hs-Schicht (clear layer). Zunächst entstehen die Aufspaltungen der Haftborstenenden, indem Keratinfilamentbündel nach einem bestimmten System von den Oz-Zellen aus in die Hs-Zellen einwachsen. Auf these Weise fungieren die Zellen der Hs-Schicht als Matrix der Haftborsten. Nach Abschluß dieses Prozesses werden die eigentlichen Haftborsten gebildet unter gleichzeitigem Auseinanderrücken der Hs- und Oz-Schichten. Die Hs-Schicht behdlt ihre Matrizen-Funktion bis zur anschließenden Häutung bei.
Light and electron microscope studies of developing setae of Tarentola m. mauritanica (Rept., Gekkonidae)
Summary In Tarentola m. mauritanica the next epidermis generation but one and therefore the adhesive setae of the generation after this begin to develop shortly after a skin has been shed. This development takes place principally in the horny layer (Oz) and the clear layer. First bundles of keratin filaments radiate from the horny layer into the clear layer, thus giving rise to the split distal parts of the adhesive bristles. Thus the cells in the clear layer act as a matrix for the setae. When this stage is complete the formation of the setae proper begins, while the horny layer and the clear layer become separated from each other. The clear layer retains its function as matrix for the setae until the next time a skin is shed.相似文献
80.