6 results found
    1. Biochemistry and Chemical Biology
    2. Microbiology and Infectious Disease

    Fucosylation and protein glycosylation create functional receptors for cholera toxin

    Amberlyn M Wands et al.
    Cholera intoxication of human colonic epithelial cells is dependent on recognition of protein glycosylation and fucosylation, not exclusively on ganglioside recognition as proposed previously.
    1. Cell Biology
    2. Human Biology and Medicine

    Mucosal absorption of therapeutic peptides by harnessing the endogenous sorting of glycosphingolipids

    Maria Daniela Garcia-Castillo et al.
    Non-native synthetic short-chain glycosphingolipids fused to GLP-1 enable intestinal absorption with high bioavailability in vivo.
    1. Immunology and Inflammation

    B cell activation involves nanoscale receptor reorganizations and inside-out signaling by Syk

    Kathrin Kläsener et al.
    Studying the earliest events in B cell activation reveals that the B cell antigen receptor is opened and activated via the phosphorylation and binding by the spleen tyrosine kinase (Syk).
    1. Biochemistry and Chemical Biology
    2. Structural Biology and Molecular Biophysics

    A bacteriophage endolysin that eliminates intracellular streptococci

    Yang Shen et al.
    Unlike other similar enzymes, the antimicrobial enzyme PlyC can interact with and translocate eukaryotic membranes, and then lyse and kill intracellular bacteria.
    1. Microbiology and Infectious Disease
    2. Physics of Living Systems

    Influenza A virus surface proteins are organized to help penetrate host mucus

    Michael D Vahey, Daniel A Fletcher
    By distributing receptor-binding and receptor-destroying proteins asymmetrically on their surface, filamentous influenza A virus particles create a Brownian ratchet that facilitates their passage through mucus.
    1. Neuroscience

    Peroxisomal dysfunctions cause lysosomal storage and axonal Kv1 channel redistribution in peripheral neuropathy

    Sandra Kleinecke et al.
    Dysfunctions of myelin peroxisomes cause a lysosomal storage-like disorder associated with alterations in glial and axonal membranes, which is the likely cause of nerve impairment in peroxisomal disorders.

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