Abstract
The long-term stability of the distribution of macromolecular topologies of the alkaline treated (1→3)-β- d-glucan, scleroglucan (1.0 mg/ml), was investigated using HPLC and electron microscopy. The fraction of cyclic (C) and linear (L) topologies of the samples renatured from alkaline solution when [NaOH] was 0.35 M or higher, remained in most cases constant following storage in neutral aqueous solution for 18 months at room temperature. Electron microscopy revealed a reduction of C and increase of L following the long-term storage for scleroglucan renatured from [NaOH] less than 0.25 M. Annealing of renatured samples at temperature T a equal 100°C gave rise to a stable distribution of 60% cyclic and 13% linear topologies. Increasing T a above 100°C yielded a distribution of topologies that reduced in initial cyclic fraction from 17% to 5±3% for T a=133°C following the 18 months storage. These changes in the distribution of topologies manifested itself also in changes in the HPLC elution profiles. In particular, the solvent history producing long-term structurally stable distribution of species of the annealed sample ( T a=100°C) also yielded unchanged HPLC elution profiles. Our data suggest that rearrangements of quenched imperfections in a re-assembled partly triple-helical structure may explain the observed changes in the relative amounts of the linear and circular macromolecular topologies occurring during the storage.
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