Polyuronide solubilization during ripening of normal and mutant tomato fruit

Abstract

The amount and molecular size of soluble polyuronide extractable from ripening tomatoes is markedly affected by residual enzyme activity. The efficacy of phenol-acetic acid-water treatment to remove this residual activity is demonstrated. Data obtained using treated wall preparations confirms that there is an increase in soluble polyuronide during normal ripening and that this also occurs in the ‘Never-ripe’ mutant, and to a lesser degree in the ‘ripening-inhibitor’ mutant. However, changes in the molecular size of this polyuronide during normal ripening were not as extensive as previously reported and few changes were apparent in either of the mutants. Measurements were also made of polygalacturonase (EC 3.2.1.15) and pectinesterase (EC 3.1.1.11) activity during ripening. The level of polygalacturonase activity does not appear to correlate with the amount of soluble polyuronide released, but may be related to the extent of depolymerisation. No relationship was apparent between the level of pectinesterase and either soluble polyuronide released or depolymerization.