Mannans in tomato fruit are not depolymerized during ripening despite the presence of endo-β-mannanase.

Cell walls of tomato fruit contain hemicellulosic mannans that may fulfill a structural role. Two populations were purified from cell walls of red ripe tomato tissue and named galactoglucomannan-glucuronoxylan I and II (GGM-GX I and II), respectively. Both polysaccharides not only consisted of mannose, glucose and galactose, indicating the presence of GGM, but also contained xylose and glucuronic acid, indicating the presence of GX. Treatment of both polysaccharides with xylanase or endo-β-mannanase showed that the GX and the GGM were associated in a complex. The composition of GGM-GX II changed slightly during tomato ripening, but both GGM-GX I and II showed no change in molecular weight, indicating that they were not hydrolyzed during ripening. Ripe tomato fruit also possess an endo-β-mannanase, an enzyme that in vitro was capable of either hydrolyzing GGM-GX I and II (endo-β-mannanase activity), or transglycosylating them in the presence of mannan oligosaccharides (mannan transglycosylase activity). The lack of evidence for hydrolysis of these potential substrates in vivo suggests either that the enzyme and potential substrates are not accessible to each other for some reason, or that the main activity of endo-β-mannanase is not hydrolysis but transglycosylation, a reaction in which polysaccharide substrates and end-products are indistinguishable. Transglycosylation would remodel rather than weaken the cell wall and allow the fruit epidermis to possibly retain flexibility and plasticity to resist cracking and infection when the fruit is ripe.