Levels of endogenous ethylene, carbon dioxide, and soluble pectin, and activities of pectin methylesterase and polygalacturonase in ripening tomato fruits

摘要

In 4 cultivars of tomato (Lycopersicon esculentumMill.), the early detachment of fruits advanced ripening and considerably reduced the threshold value of endogenous C2H4. This indicates a supply from the vegetative parts of (a) labile ripening-inhibiting substance(s) antagonizing the action of C2H4.The endogenous level of CO2increased shortly after the rise in C2H4, and maximum levels of C2H4and CO2occurred almost simultaneously.The activity of PE showed no connection with ripening, but PG activity did not occur until the onset of ripening. However, this activity increased at considerably higher C2H4concentrations than the rise in WSP, and was independent of the possible presence of ripening inhibitor(s). Hence PG is considered not to be involved in the primary events leading to fruit ripening.Exposure of fruits to different C2H4concentrations in the ambient atmosphere also showed PG activity to increase only after the rise in WSP had started. Other pectin degrading or synthesizing enzymes may be involved.In the non-ripeningRinmutant of cv. Rutgers, no rise occurred in C2H4, CO2, WSP, and PG activity.