• Title of article

    Removal of the side-chain glucose groups from schizophyllan improves the thermal stability of the polycytidylic acid complexes under the physiological conditions

  • Author/Authors

    Shinkai، Seiji نويسنده , , Kunitake، Toyoki نويسنده , , Koumoto، Kazuya نويسنده , , Sakurai، Kazuo نويسنده , , Mizu، Masami نويسنده , , Karinaga، Ryouji نويسنده , , Anada، Takahisa نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2004
  • Pages
    -402
  • From page
    403
  • To page
    0
  • Abstract
    Thermal stabilization of the complex between polycytidylic acid [poly(C)] and the modified schizophyllan (SPG) whose hydrophilic side-chain glucose groups are selectively removed utilizing mild Smith-degradation has been investigated. With the decrease in the side-chain glucose groups of schizophyllan, the complex with poly (C) can be considerably stabilized compared with unmodified SPG; for example, the Tm value after the removal of the side-chain glucose groups from 33.3 (unmodified) to 1.0 is enhanced by 14°C. In addition, the thermal stabilization effect is even operative under the physiological conditions ([NaCl] = 0.15 mol dm^-3). This effect is exerted owing to the construction of the hydrophobic atmosphere around the complex. Although schizophyllan lost the side-chain glucose groups, it still kept the protection effect of the bound poly(C) chain against RNaseA-mediated hydrolysis as observed for unmodified schizophyllan. The assessment of the cytotoxicity for A375:human malignant melanoma, and HL60:human promyelocytic leukemia revealed that the modified schizophyllan scarcely increases the cytotoxicity. These results indicate that the present modification for schizophyllan is of great significance in a viewpoint to develop the practical gene carriers operative even under the physiological conditions.
  • Keywords
    schizophyllan , )beta)-1,3-glucan , Polysaccharide , poly(C) , Polynucleotide , chemical modification , mild-Smith degradation
  • Journal title
    BIOPOLYMERS (ORIGINAL RESEARCH ON BIOMOLECULES)
  • Serial Year
    2004
  • Journal title
    BIOPOLYMERS (ORIGINAL RESEARCH ON BIOMOLECULES)
  • Record number

    120865