Pressure cell assisted solubilization of xyloglucans: tamarind seed polysaccharide and detarium gum.

To improve the solubilization of two water-soluble xyloglucans, tamarind seed polysaccharide and detarium gum, by reducing substantially molecular aggregation, a "pressure cell" heating method was used. Conditions allowing solubilization and chain depolymerization were produced by varying appropriately the pressure, time, and temperature applied. The various MW fractions of solubilized xyloglucans were characterized by capillary viscometry and light scattering techniques in order to extract, with reliability, fundamental macromolecular parameters. Mark-Houwink and Flory exponents were found to be 0.67 +/- 0.04 and 0.51 +/- 0.06, respectively for both xyloglucan data combined, consistent with linear random coil behavior. A detailed analysis of the data seems to suggest that tamarind gum solutions are slightly perturbed by the effect of excluded volume, whereas detarium gum samples are close to the theta state. Chain flexibility parameters such characteristic ratio, C( proportional, variant ), and persistence length, L(p), were calculated for tamarind and detarium using the Burchard-Stockmayer-Fixman (BSF) geometric method. L(p) values of 6-8 nm were estimated for xyloglucans. The seemingly linear structure of tamarind and detarium, as suggested by the value of the Mark-Houwink and Flory exponents obtained, follows from analysis of the data by the classical Zimm method but not when employing the square root or Berry method which suggests a more branched chain profile. This was the approach adopted in our previous work on the characterization of detarium samples.