Shiga toxin (Stx) is a major virulence factor of Stx-producing Escherichia coli. Recently, we developed a therapeutic Stx neutralizer with 6 trisaccharides of globotriaosyl ceramide, a receptor for Stx, in its dendrimer structure (referred to as "SUPER TWIG [1]6") to function in the circulation. Here, we determined the optimal structure of SUPER TWIG for it to function in the circulation and identified a SUPER TWIG with 18 trisaccharides, SUPER TWIG (2)18, as another potent Stx neutralizer. SUPER TWIGs (1)6 and (2)18 shared a structural similarity, a dumbbell shape in which 2 clusters of trisaccharides were connected via a linkage with a hydrophobic chain. The dumbbell shape was found to be required for formation of a complex with Stx that enables efficient uptake and degradation of Stx by macrophages and, consequently, for potent Stx-neutralizing activity in the circulation. We also determined the binding site of the SUPER TWIGs on Stx.
An experimental setup for high-pressure liquid structure studies with synchrotron x-ray diffraction using the Paris-Edinburgh press has been installed at station 16-BM-B (HPCAT) of the Advanced Photon Source, Argonne National Laboratory. By collecting energy-dispersive data with a synchrotron white beam at various 2θ angles, the present device allows us to obtain the structure factor, S(Q), over a wide range of Q ( = 4πsinθ∕λ) owing to the excellent angular accessibility up to 37° in 2θ and high energy photons well beyond 100 keV. We have successfully collected XRD data on silicate (albite, NaAlSi(3)O(8)) liquids with Q up to ∼22 Å(-1) and pressure up to 5.3 GPa and temperature 1873 K, and obtained the radial distribution function, G(r), with a reasonable resolution. The T-O bond length (where T = Al, Si), which is a fundamental measure of local structure for aluminous silicate consisting of SiO(n) and AlO(n) polyhedra (tetrahedra at 1 atm condition), was found to be slightly shortened to 1.626 Å compared to that of glass at 1 atm. The T-O-T bound angle, which is the linkage of the above polyhedra, is the most responsible for densification. The T-O-T peak in G(r) splits into two peaks, suggesting a differentiation of the bond angle at high-pressure. The present technical development demonstrates that the Paris-Edinburgh press is suitable for studies of silicate liquids under high-pressure conditions.
The interaction between cell surface receptors and the envelope glycoprotein (EGP) on the viral membrane surface is the initial step of Dengue virus infection. To understand the host range, tissue tropism, and virulence of this pathogen, it is critical to elucidate the molecular mechanisms of the interaction of EGP with receptor molecules. Here, using a TLC/virus-binding assay, we isolated and characterized a carbohydrate molecule on mammalian cell surfaces that is recognized by dengue virus type 2 (DEN2). Structural determination by immunochemical methods showed that the carbohydrate structure of the purified glycosphingolipid was neolactotetraosylceramide (nLc4Cer). This glycosphingolipid was expressed on the cell surface of susceptible cells, such as human erythroleukemia K562 and baby hamster kidney BHK-21. All serotypes of DEN viruses, DEN1 to DEN4, reacted with nLc4Cer, and the non-reducing terminal disaccharide residue Galbeta1-4GlcNAcbeta1- was found to be a critical determinant for the binding of DEN2. Chemically synthesized derivatives carrying multiple carbohydrate residues of nLc4, but not nLc4 oligosaccharide, inhibited DEN2 infection of BHK-21 cells. These findings strongly suggested that multivalent nLc4 oligosaccharide could act as a competitive inhibitor against the binding of DEN2 to the host cells.
Thin films of Co-Ag, Co-Cu, and Fe-Cu alloys were produced by electrochemical deposition. In this study the relationship between the magnetoresistance (MR) ratio and the crystalline state in the electrodeposited alloy films is investigated. Even though for the Co-Ag system it is difficult to form a solid solution, precipitation of phase-separated fine particles or grains is relatively straightforward. It was found that the Co grain (or particle) size becomes smaller with increasing current density (1-10 mA/cm2) and the MR ratio also increases. On annealing the film, the MR ratio decreases. For the Co-Cu system, it is easy to produce a solid solution of Co with Cu in the electrodeposited Co-Cu films. The MR ratio for the Co-Cu system increases after annealing.
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