บทคัดย่องานวิจัย

Cell wall dissolution in ripening kiwifruit (Actinidia deliciosa). Solubilization of the pectic polymers

Robert J. Redgwell, Laurence D. Melton and Donald J. Brasch

Plant physiology. Vol: 98 Issue: 1 Pages: 71-81

1992

บทคัดย่อ

Cell wall dissolution in ripening kiwifruit (Actinidia deliciosa).

Pectic polysaccharides solubilized in vivo during ripening, were isolated using phenol, acetic acid, and water (PAW) from the outer pericarp of kiwifruit (Actinidia deliciosa [A. Chev.] C.F. Liang and A.R. Ferguson var deliciosa 'Hayward') before and after postharvest ethylene treatment. Insoluble polysaccharides of the cell wall materials (CWMs) were solubilized in vitro by chemical extraction with 0.05 molar cyclohexane-trans-1,2-diamine tetra-acetate (CDTA), 0.05 molar Na2CO3, 6 molar guanidinium thiocyanate, and 4 molar KOH. The Na2CO3-soluble fraction decreased by 26%, and the CDTA-soluble fraction increased by 54% 1 day after ethylene treatment. Concomitantly, an increase in the pectic polymer content of the PAW-soluble fraction occurred without loss of galactose from the cell wall. The molecular weight of the PAW-soluble pectic fraction 1 day after ethylene treatment was similar to that of the Na2CO3-soluble fraction before ethylene treatment. Four days after ethylene treatment, 60% of cell wall polyuronide was solubilized, and 50% of the galactose was lost from the CWM, but the degree of galactosylation and molecular weight of pectic polymers remaining in the CWMs did not decrease. The exception was the CDTA-soluble fraction which showed an apparent decrease in molecular weight during ripening. Concurrently, the PAW-soluble pectic fraction showed a 20-fold reduction in molecular weight. The results suggest that considerable solubilization of the pectic polymers occurred during ripening without changes to their primary structure or degree of polymerization. Following solubilization, the polymers then became susceptible to depolymerization and degalactosidation. Pectolytic enzymes such as endopolygalacturonase and beta-galactosidase were therefore implicated in the degradation of solubilized cell wall pectin bulk of the pectic polymers in vivo.