Persimmon tannins enhance the gel properties of high and low methoxyl pectin

Abstract

The effects of persimmon tannins with different average degrees of polymerization (DP26 and DP5) on the rheological and microstructural properties of high- and low-methoxyl (HM/LM) pectin gel were investigated. The gel properties were analyzed by large-deformation and dynamic rheological measurements, and the complex gels microstructure was also characterized using scanning electron microscopy (SEM). Persimmon tannins (DP26/5) could significantly enhance the strength of HM and LM pectin gels (p < 0.05) that was about twice that of pectin alone, especially with high concentrations of tannins (2 g/L). Besides, the rheological results indicated that the addition of persimmon tannins increased the gelling ability of HM/LM pectins, and all tannin-pectin complex gels displayed a typical weak gel-like (G′ > G″) structure. Furthermore, SEM analyses revealed the heterogeneous and aggregated network of the gels containing persimmon tannins, because of the intermolecular cross-linking between the carboxyl groups of pectin molecule and the phenolic hydroxyl groups of tannins through hydrogen bonds and hydrophobic interaction. Overall, DP5 tannins enhanced gel properties of HM/LM pectins more than DP26 tannins, probably due to the larger size, steric hindrance and self-association of DP26 tannins.