Tomatoes (Lycopersicon escadentum L.) contained a high level of aigalactosidase activity which was due to three forms of the enzyme. During tomato ripening, the sum of their activities remained relatively constant, but the levels of the individual forms of 8-galactosidase changed markedly. The three enzymes were separated by a combination of chromatography of DEAE-Sephadex A-50 and Sephadex G-100. During ripening of tomatoes, /8-galactosidases I and III levels decreased but the P-galactosidase II level increased more than 3-fold. The three enzymes were optimally active near pH 4, and all were inhibited by galactose and galactonolactone. However, the enzymes differed in molecular weight, Km value with p-nitrophenyl-flgalactoside, and stability with respect to pH and temperature. /3-Galactosidase II was the only enzyme capable of hydrolyzing a polysaccharide that was isolated from tomatoes and that consisted primarily of a-1, 4-linked galactose. The ability of tgalactosidase II to degrade the galactan and the increase in its activity during tomato ripening suggest a possible role for this enzyme in tomato softening.During fruit ripening, the most apparent cell-wall change is an increase in water-soluble polyuronide (6)(7)(8)15). The solubilization of polyuronide is generally attributed to the action of polygalacturonase, which appears in many fruits near the onset of ripening (6,15,19). Another change that occurs, at least in apples, strawberries, and tomatoes, is a pronounced loss of galactose from the cell walls. This process does not appear to be related to cell-wall degradation by polygalacturonase (9,17), but possibly to a galactanase. Bartley (2) found a f8-galactosidase in apples that degraded galactan and increased in activity during apple ripening. Tomatoes also contain ,B-galactosidase, but it has been concluded that this enzyme is not responsible for the hydrolysis of cell wall galactans (5). Furthermore, Gross and Wallner (5) rate at which it hydrolyzes p-nitrophenyl-,B-galactoside (Sigma). The reaction mixture consisted of 0.5 ml of 0.1 M citrate (pH 4.0), 0.4 ml of 0.1% BSA, 0.1 ml of diluted enzyme, and 0.4 ml of 13 mm substrate. After 15 min at 37°C, the reactions were terminated by the addition of 2 ml of 0.2 M sodium carbonate, and the liberated p-nitrophenol was measured at 415 nm. One unit of ,8-galactosidase was defined as the amount that hydrolyzed 1 ,umol ofp-nitrophenyl-,f-galactoside/ 15 mi.Galactanase was assayed by measuring the release of reducing sugars from a galactose-rich polysaccharide isolated from tomatoes (see below). The reaction mixture consisted of 0.4 ml of 0.1 M sodium acetate (pH 4.0), 0.4 ml of enzyme solution diluted with 0.2% BSA, and 0.2 ml of 1% polysaccharide. After 1 h at 37°C, the reaction was terminated by heating in boiling water, and the solution was analyzed for reducing groups by the arsenomolybdate method (13). The reaction rates in the ,B-galactosidase and galactanase assays were linear with respect to both enzyme concentration and incubation time.T...
