Abstract
Pectinic acid and calcium pectate gels condensed into uniaxially oriented fibers have been studied by X-ray diffraction. Although the diffraction patterns correspond to systems of only limited order, they show that both systems conserve the 1.3 nm axial period and 0.43 nm pseudo-period observed in sodium pectate. Pectinic acid further resembles sodium pectate in packing isometrically in a hexagonal net of side 0.84 nm. On the other hand, calcium pectate fibers contain the 1.2 nm lateral spacing observed in pectic acid. Speculative models for pectinic acid and calcium pectate have been developed. The former structure could be stabilized by hydrophobic binding from columns of methyl groups as well as by specific intermolecular hydrogen bonds. In the latter, the main interactions between pairs of chains could be bridges formed by calcium ions, which incorporate into their co-ordination shells two polyanion oxygen atoms from one chain and three from another. These model-building studies provide plausible visualizations of two different kinds of junction zones that may exist in pectic gels.
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