Sm. Krall et Rf. Mcfeeters, PECTIN HYDROLYSIS - EFFECT OF TEMPERATURE, DEGREE OF METHYLATION, PH,AND CALCIUM ON HYDROLYSIS RATES, Journal of agricultural and food chemistry, 46(4), 1998, pp. 1311-1315
The rate of acid hydrolysis of pectin at pH 3 decreased as the degree
of pectin methylation (DM) increased. Acid hydrolysis rates for polype
ctate (<5% DM) declined as the pH was raised from 2 to 6. Pectin (35%
and 70% DM) hydrolyzed more slowly than polypectate below pH 3.5, but
degradation rates then increased because beta-elimination became the d
ominant reaction above pH 3.8. Temperature effects on the hydrolysis r
ates at pH 3 of pectin samples from different sources, as indicated by
values for the entropy and enthalpy of activation for this reaction,
were very different from the effect of temperature on cucumber tissue
softening at the same pH. The results indicated that pectin hydrolysis
is not the primary reaction responsible for nonenzymatic plant tissue
softening at acid pH. Though calcium ions strongly inhibit plant tiss
ue softening at acid pH, calcium ions did not inhibit acid hydrolysis
of pectin.