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Citation
Murate, M., Tomishige, N., Kobayashi, T. (2020). Wrapping axons in mammals and Drosophila: Different lipids, same principle.  Biochimie 178(): 39--48.
FlyBase ID
FBrf0247044
Publication Type
Review
Abstract
Plasma membranes of axon-wrapping glial cells develop specific cylindrical bilayer membranes that surround thin individual axons or axon bundles. Axons are wrapped with single layered glial cells in lower organisms whereas in the mammalian nervous system, axons are surrounded with a characteristic complex multilamellar myelin structure. The high content of lipids in myelin suggests that lipids play crucial roles in the structure and function of myelin. The most striking feature of myelin lipids is the high content of galactosylceramide (GalCer). Serological and genetic studies indicate that GalCer plays a key role in the formation and function of the myelin sheath in mammals. In contrast to mammals, Drosophila lacks GalCer. Instead of GalCer, ceramide phosphoethanolamine (CPE) has an important role to ensheath axons with glial cells in Drosophila. GalCer and CPE share similar physical properties: both lipids have a high phase transition temperature and high packing, are immiscible with cholesterol and form helical liposomes. These properties are caused by both the strong headgroup interactions and the tight packing resulting from the small size of the headgroup and the hydrogen bonds between lipid molecules. These results suggest that mammals and Drosophila wrap axons using different lipids but the same conserved principle.
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Erratum

Corrigendum to "Wrapping axons in mammals and Drosophila: Different lipids, same principle" [BIOCHIMIE 178C (2020) 39-48].
Murate et al., 2021, Biochimie 187: 82 [FBrf0249437]

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Secondary IDs
    Language of Publication
    English
    Additional Languages of Abstract
    Parent Publication
    Publication Type
    Journal
    Abbreviation
    Biochimie
    Title
    Biochimie
    Publication Year
    1971-
    ISBN/ISSN
    0300-9084
    Data From Reference
    Genes (5)
    Human Disease Models (1)