Quelques données ultrastructurales sur un myoépithélium: le pharynx d'un Bryozoaire

Résumé L'épithélium pharyngien d'Alcyonidium polyoum possède des cellules pourvues d'une très grande vacuole. L'incompressibilité du liquide vacuolaire permet un élargissement brusque de l'organe lors de la contraction du manchon musculaire strié qui enserre cette vacuole. Les fibres musculaires sont insérées sur le plasmalemme apical par des filaments unitifs. Le point d'attache est relié à la lame amorphe du cell-coat qui entoure les microvillosités par des fibrilles, réalisant probablement une liaison mécamique plus efficace. Le reticulum sarcoplasmique porte des ribosomes. Le cytoplasme apical renferme des vésicules de diverses catégories.

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Some ultrastructural data about a myoepithelium: The pharynx of a bryozoan

Summary Pharyngeal cells of Alcyonidium polyoum (Bryozoa) are provided with very large vacuoles. Each vacuole is enveloped by a thin layer of striated muscle, whose contraction enlarges the organ. Filaments join the muscular elements to the apical plasmalemma. This point of muscular insertion is connected by fibrils with the amorphic lamina of cell-coat which surrounds the microvilli. Ribosomes are often found on dyads. Various vesicles are located in the apical cytoplasm.

     

Striated ciliary root-golgi association in branchial crown epithelial cells ofOwenia. Visualization of Ca2+-binding sites and ATPase activities

Summary Striated Ciliary Roots (SCRs), about 3 m long, are attached to the basal bodies of branchial crown ciliated epithelial cells ofOwenia. These SCRs appear to consist of 5–7-nm diameter filaments organized in a cross-striation pattern with an apparent variable periodicity of 50 to 80 nm. The most exciting observation emerging from this study is the constant and conspicuous close spatial relationship between SCRs and fairly well developed Golgi apparatus. By enhancing contrast and preservation of cell components, the OsFeCN postfixation-staining of material prefixed in glutaraldehyde in the presence of calcium has revealed some fine-structural details within the SCR-Golgi Association. By means of the calcium precipitation method, with antimonate or oxalate in conjunction with X-ray microanalysis, we have identified calcium within SCR dark bands and SCR-associated Golgi bodies. The ability to bind calcium makes the Golgi apparatus a likely candidate for Ca²⁺ regulation of putative contraction of the SCRs and/or ciliary motility. The slight period variability measured in the SCRs and cytochemical localization of Mg²⁺, Ca²⁺-dependent ATPase activities associated with cross striations support the view that theOwenia SCRs may be contractile organelles.The striking and specific close structural association between the Golgi apparatus and the SCR showing Ca²⁺-binding capabilities suggests that some sort of Ca²⁺-mediated functional relationship between these organelles may exist.Abbreviations SCR striated ciliary root - OsFeCN method osmium tetroxide-ferricyanide method - EDTA ethylenediamine tetraacetic acid - EGTA ethyleneglycol-bis-(-aminoethyl ether) N,N-tetraacetic acid - ATP adenosine 5-triphosphoric acid - ATPase adenosine triphosphatase - ASW artificial sea-water     

Fine structure of the zoospore ofUlothrix belkae with emphasis on the flagellar apparatus

Summary The anterior end of the zoospore ofUlothrix belkae has been examined in detail and is compared toStigeoclonium and other filamentous green algae. The nature of the symmetry of green algal motile cells is discussed and the term, 180° rotational symmetry, is proposed to describe the type of arrangement of anterior end components seen inU. belkae, including the four basal bodies, rootlets and striated fibers. The four microtubular rootlets are cruciately arranged. A striated microtubule-associated component (SMAC) has a periodicity of 6.4 nm and extends with each 2-membered rootlet posteriorly into the cell. One 5-membered rootlet passes very near the eyespot. Phylogeny in green algal motile cells is discussed.     

Evolution of striated muscle: jellyfish and the origin of triploblasty

The larval and polyp stages of extant Cnidaria are bi-layered with an absence of mesoderm and its differentiation products. This anatomy originally prompted the diploblast classification of the cnidarian phylum. The medusa stage, or jellyfish, however, has a more complex anatomy characterized by a swimming bell with a well-developed striated muscle layer. Based on developmental histology of the hydrozoan medusa this muscle derives from the entocodon, a mesoderm-like third cell layer established at the onset of medusa formation. According to recent molecular studies cnidarian homologs to bilaterian mesoderm and myogenic regulators are expressed in the larval and polyp stages as well as in the entocodon and derived striated muscle. Moreover striated and smooth muscle cells may have evolved directly and independently from non-muscle cells as indicated by phylogenetic analysis of myosin heavy chain genes (MHC class II). To accommodate all evidences we propose that striated muscle-based locomotion coevolved with the nervous and digestive systems in a basic metazoan Bauplan from which the ancestors of the Ctenophora (comb jellyfish), Cnidaria (jellyfish and polyps), as well as the Bilateria are derived. We argue for a motile tri-layered cnidarian ancestor and a monophyletic descent of striated muscle in Cnidaria and Bilateria. As a consequence, diploblasty evolved secondarily in cnidarian larvae and polyps.     

Visual configuration of two species of Falconidae with different foraging ecologies

Significant interspecific differences in avian vision occur, even in congeneric species, and these have been correlated with differences in the perceptual challenges associated with foraging. Although diurnal raptors are assumed to be mainly visually guided in their foraging, they differ markedly in their foraging tactics and this may result in different visual demands. Among the Falconidae (Falconiformes), most falcons forage mainly on the wing for highly mobile prey, whereas caracaras forage on the ground for carrion and insects. We assessed whether Saker Falcon Falco cherrug and Southern Caracara Caracara plancus differ in their visual abilities by determining the visual fields and foveal characteristics of both species. Using an ophthalmoscopic reflex technique, we found a higher degree of binocular overlap in the caracaras than in the falcons. The high binocular overlap (47°) of the Southern Caracara may facilitate object manipulation (e.g. moving rocks) when foraging. We used an ultra‐high resolution spectral‐domain optical coherence tomography to determine foveal characteristics. We found two foveas (depressions in the retina where high visual resolution is expected) in the falcons (one central and one temporal) but only a central fovea in the caracaras. The presence of a shallower temporal fovea in Saker Falcons may help to fixate visually upon a highly mobile prey item during pursuit. We conclude that these differences in visual field configurations and foveal characteristics reflect different foraging demands, suggesting that the extraction of visual information is finely tuned to the demands of their foraging tactics.     

Troponin T isoforms and posttranscriptional modifications: Evolution, regulation and function

Troponin-mediated Ca²⁺-regulation governs the actin-activated myosin motor function which powers striated (skeletal and cardiac) muscle contraction. This review focuses on the structure–function relationship of troponin T, one of the three protein subunits of the troponin complex. Molecular evolution, gene regulation, alternative RNA splicing, and posttranslational modifications of troponin T isoforms in skeletal and cardiac muscles are summarized with emphases on recent research progresses. The physiological and pathophysiological significances of the structural diversity and regulation of troponin T are discussed for impacts on striated muscle function and adaptation in health and diseases.     

Elektronenmikroskopische Untersuchungen des ventralen Diaphragmas von Locusta migratoria und der langsamen Kontraktionswelle nach Fixation durch Gefriersubstitution

Zusammenfassung Die Muskulatur des ventralen Diaphragmas von Locusta besteht aus parallel verlaufenden Muskelfasern, die über glanzscheibenartige Strukturen in den Querverbindungen miteinander verbunden sind. Jede Muskelfaser ist von einer dicken Bindegewebshülle umgeben. Die Fasern sind über Hypodermiszellen mittels Tonofibrillen in der Cuticula verankert.Unkontrahierte Sarkomere haben eine Länge von 5 m und mehr. Eine H-Zone ist angedeutet, eine M-Linie nicht vorhanden. Aktin- und Myosinfilamente (Durchmesser 72 bzw. 160 AE) liegen nicht im Register. Daneben existiert ein dritter, sehr dünner Filamenttyp. Die Z-Zone hat einen gewellten Verlauf und faßt die Aktinfilamente in Bündeln zusammen. Mitochondrien liegen beiderseits der Z-Zone. Das T-System faltet sich in Form von Sarkolemmkerben in das Faserinnere ein und setzt sich in Tubuli nach innen fort. Z-Zonen und Sarkolemmkerben sind miteinander verbunden. T-System und sarkoplasmatisches Retikulum treten durch unregelmäßig verteilte Diaden miteinander in Kontakt.Begrenzter Ca⁺⁺-Entzug läßt Kontraktionswellen von der Länge mehrerer Sarkomere entstehen.Die Fixation durch Gefriersubstitution erzeugt gegenüber Standardverfahren Veränderungen wie Schrumpfung des Sarkoplasmas, Verdickung der Myosinfilamente, Vakuolisierung von Mitochondrien und vesikulärem System. In der Kontraktionswelle verkürzt sich die A-Zone mit zunehmender Sarkomerenkontraktion. Der Durchmesser der Myosinfilamente beträgt 172 AE, die Periodik der Cross-bridges von 305 AE bleibt im mittleren Bereich der Filamente konstant.

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Electron microscope studies of the ventral diaphragm of Locusta migratoria and of the slow wave of contraction after fixation by freeze substitution

Summary The muscular system of the ventral diaphragm of Locusta consists of parallel muscle fibers, which are connected by structures like intercalated discs within transverse bridges. Each muscle fiber is enveloped by a thick sheath of connective tissue. The fibers are attached to the cuticule by means of hypodermic cells with tonofibrils.Uncontracted sarcomeres have a length of 5 m and more. The H-band is slightly indicated, a M-line is not visible. Actin and myosin filaments (diameter 72 respectively 160 AE) are out of register. Moreover there is a third and very thin type of filaments. The Z-band has an undulating shape and collects the actin filaments into bundles. Mitochondria lie on either side of the Z-band. The T-system invaginates as sarcolemmal clefts and continues its course inwards as tubuli. The sarcolemmal clefts are connected with the Z-band. The T-system and the sarcoplasmic reticulum are joined by diads of irregular distribution.Limitated deprivation of Ca⁺⁺ causes waves of contraction with the length of several sarcomeres.Contrary to standard methods the freeze-substitution causes some modifications such as shrinking of the sarcoplasm, thickening of the myosin filaments, vacuolization of mitochondria and vesicular system. Within the waves of contraction the A-band shortenes with increasing sarcomere contraction. The diameter of the myosin filaments measures 172 AE, the 305 AE-period of the cross-bridges remains constant within the middle of the filaments.

Auszug aus der Dissertationsarbeit Elektronenmikroskopische Untersuchungen der Muskulatur des ventralen Diaphragmas von Locusta migratoria und der langsamen Kontraktionswelle unter Anwendung der Gefriersubstitution (Mathematisch-Naturwissenschaftliche Fakultät der Universität Göttingen). Auf Anregung von Herrn Prof. Dr. Schlote und mit Unterstützung durch die Deutsche Forschungsgemeinschaft und die Göttinger Akademie der Wissenschaften.     

Degree of polarization of light diffracted from resting striated muscle

A laser light diffractometer has been developed to measure directly the total degree of polarization of ({ie145-1}) of light diffracted and randomly scattered from striated muscle fibers. From {ie145-2} the degree of polarization ({ie145-3}) of light diffracted from the periodically arranged contractile filaments is determined. Measurements on single muscle fibers and small fiber bundles indicate that both {ie145-4} and {ie145-5} of the firstorder diffraction decrease monotonically with sarcomere length. For the second-order diffraction, {ie145-6} and {ie145-7} exhibit a peak at sarcomere length of about 3.0 μm. A proposed theory based on the anisotropic light scattering efficiencies of the thick and thin filaments can account for the measurements. The comparison between the theory and measurements indicates that the A-band, as well as the I-band, are optically anisotropic.     

Structural diversity in muscle fibres of chicken breast

Summary Chicken breast muscle is usually considered to be a relatively homogeneous white muscle and has therefore been widely used for studies of muscle proteins. In a previous study, however, we have found different M-region structures in different fibres from this muscle. Because of this result, we have now carried out a combined histochemical and ultrastructural survey of this muscle. In particular, we have made use of large transverse cryo-sections that include most of the muscle cross-section.Although the white region is fairly homogeneous in fibre content according to normal histochemical criteria (mAT-Pase), we have found that there is a gradation of fibre structure across the muscle. The bulk of the muscle stains conventionally for Type-II fibres according to mATPase tests (the white part) but, in the small red part of the muscle, there are also Type-I fibres together with the Type-II fibres. Superimposed on this division into Type-I and Type-II fibres are variations in fibre size, oxidative and glycolytic staining properties, and variations of Z-band width and M-band structure; there is no strict correlation among any of these parameters. The apparently uniform staining across most of the muscle when tested for myofibrillar ATPase may be a misleading indicator of fibre properties.     

Trace fossils on a Late Ordovician glacially striated pavement in Algeria

An exceptional exposure of Late Ordovician glaciogenic sediments crops out in Dider, SE Algeria, within the Tassili N'Ajjer region. The sediments consist of sandstones and diamictites sandwiched between a Mid Ordovician fluvial and tidal sandstone (In Tahouite Formation) below and Early Silurian shale (Oued Imirhou Formation) above. Stratigraphic discontinuities within the Late Ordovician glaciogene succession include palaeovalley incisions and glacially striated pavements. Striation and fluting of a soft-bedded sediment beneath an ancient ice sheet is supported by abundant dewatering structures and soft-sediment gouges interpreted to have been produced by the action of stone ploughing. In Dider, two types of previously undescribed circular structures sit in negative relief on this glacial pavement, namely 1) paired thumb-shaped impressions 2 cm in diameter and 3 mm in depth, and 2) a 5 cm wide impression with 3 segmented nested cycles. A framboid or aggregate origin may be appropriate for the smaller of the features but the larger impression is interpreted as biogenic: internal complexity is characteristic, discounting concretion moulds and water escape structures. A biogenic origin as a coelenterate resting trace is proposed with speculation on conditions of exceptional preservation in an ancient periglacial environment.