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  • Articles  (2)
  • Comparative autoradiography (3H-uridine, 3H-histidine, 3H-glucose)  (1)
  • Brain
  • temperature adaptation
  • Springer  (2)
  • 1
    Electronic Resource
    Electronic Resource
    Vergleichende histophysiologische Tracer-Untersuchungen an verschiedenen Organsystemen von Branchiostoma lanceolatum (Cephalochordata) und Brachydanio rerio (Teleostei) (1973)
    Springer
    Cell & tissue research 137 (1973), S. 399-419 
    Details
    ISSN: 1432-0878
    Keywords: Comparative autoradiography (3H-uridine, 3H-histidine, 3H-glucose) ; Branchiostoma lanceolatum (Cephalochordata) ; Brachydanio rerio (Teleostei)
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Description / Table of Contents: Zusammenfassung In vergleichend autoradiographischen Untersuchungen wurde der Einbau von percutan applizierten 3H-Uridin, 3H-Histidin und 3H-Glucose in die wichtigsten Organsysteme (Epidermis, ZNS, Muskeln, Chorda, Leber, Kiemendarm, Darm) von Branchiostoma lanceolatum (Acranier) und Brachydanio rerio (Teleosteer) nach Inkorporationszeiten von 11 min bis zu 7 Tagen verfolgt. Der Stoffwechsel der markierten Substanzen in den einzelnen morphologisch miteinander zu homologisierenden Organen war bei den beiden Spezies sehr ähnlich, bei Branchiostoma allerdings (mit Ausnahme des ZNS) 4–5mal stärker als bei Brachydanio. Bei dem letzteren wurde außerdem eine zeitliche Verzögerung in der Tracer-Aufnahme („lag-Phase“) beobachtet. Insbesondere der ZNS-Stoffwechsel von Acraniern zeigte ähnliche Charakteristika wie der von Vertebraten: Verbleib des Hauptanteils der neusynthetisierten RNS im Perikaryon, axonalen Protein-Transport, Vorwiegen der Glykogensynthese in den Nervenfaserendformationen. Allerdings fanden sich im ZNS von Branchiostoma niedrigere Stoffwechselraten als im ZNS von Brachydanio.
    Notes: Summary Incorporation of 3H-uridine, 3H-histidine and 3H-glucose into some organs (epidermis, CNS, muscles, spinal cord, notochord, liver, gills, intestine) of Branchiostoma lanceolatum (Acrania) and Brachydanio rerio (Teleostei) was investigated by means of comparative autoradiograms following incorporation periods of 11 min to 7 days. The metabolism of the labeled substances in the various homologous organs examined was quite similar, although it was 4 to 5 times higher in Branchiostoma than in Brachydanio; in the latter there was also a delay of tracer incorporation of about 3 hrs, a so-called lag-phase. In particular the metabolism of the CNS of Branchiostoma showed the same characteristics as the CNS of vertebrates, e. g. storage of neuronally synthesized RNA in the neuronal perikarya, axonal flow of proteins, glycogen synthesis in nerve endings. However, metabolic activity of the CNS was lower in Branchiostoma.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00307212
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  • 2
    Electronic Resource
    Electronic Resource
    Gangliosides Affect Membrane-Channel Activities Dependent on Ambient Temperature (2000)
    Springer
    Cellular and molecular neurobiology 20 (2000), S. 579-590 
    Details
    ISSN: 1573-6830
    Keywords: bilayer ; alamethicin ; homoioviscosity ; gangliosides ; temperature adaptation
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Abstract 1. The functional properties of biological membranes depend on their molecular composition. In regard to this, charged glycosphingolipids play an outstanding role in the functional adaptation of membranes to different temperatures. 2. In order to shed some light on the respective functional properties of complex membraneous glycosphingolipids, the effects of altered temperatures (5–40°C) on planar lipid bilayers made from diphytanoylphosphatidylcholine (DPPC) and alamethicin as an ion channel was analyzed in the presence of either a sialoglycosphingolipid (less polar disialoganglioside GD1a or highly polar tetrasialoganglioside GQ1b) or phosphatidylserine (PS; as control). 3. Different to the control bilayers made from DPPC or DPPC + PS, the bilayers containing gangliosides had specific maxima in alamethicin conductance and stabile life times. Changes in pore-state conductances indicate structural effects based on an interaction of the large (negatively charged) ganglioside headgroups with the alamethicin pores. 4. The results concerning open time and closed time of channels seem to be based on the gangliosides changing the viscosity of the bilayer and possibly introducing phase transitions. 5. Thus, the findings suggest that gangliosides (1) directly affect channel molecules via their headgroups and (2) may additionally affect the fluidity of membranes in order to maintain membrane homeoviscosity in areas surrounding ion channels independent from the environmental temperature. 6. The effects of gangliosides may be of special interest in describing the ability of neuronal adaptation of vertebrates to temperature and more general regarding the functional adaptation of neurons.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1023/A:1007063928449
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