Recent Developments on the Role of Ethylene in the Ripening of Climacteric Fruit
Résumé
It has long been recognised that ethylene plays a major role in the ripening
process of climacteric fruit. A more thorough analysis, however, has revealed that a
number of biochemical and molecular processes associated with climacteric fruit
ripening are ethylene-independent. One of the crucial steps of the onset of ripening
is the induction of autocatalytic ethylene production. In ethylene-suppressed melons,
ACC synthase activity is induced at the same time as in control melons, indicating
that ACC biosynthesis during the early stages of ripening seems to be a
developmentally-regulated (ethylene-independent) process. The various ripening
events exhibit differential sensitivity to ethylene. For instance, the threshold level for
degreening of the rind is 1ppm, while 2.5 ppm are required to trigger some
components of the softening process. The saturating level of ethylene producing
maximum effects is less than 5 ppm, which is by far lower than the internal ethylene
concentrations found in the fruit at the climacteric peak (over 100 ppm). In many
fruit chilling temperatures hasten ethylene production and ripening and in some late
season pear varieties, exposure to chilling temperatures is even absolutely required
for the attainment of the capacity to synthesize autocatalytic ethylene. This is
correlated with the stimulation of expression of ACC oxidase and of members of the
ACC synthase gene family. Ethylene operates via a perception and transduction
pathway to induce the expression of genes responsible for the biochemical and
physiological changes observed during ripening. However, only a few genes induced
via the ethylene transduction pathway have been described so far. We have used a
differential display method to isolate novel ethylene-reponsive (ER) cDNA clones of
tomato that potentially play a role in propagating the ethylene response and in
regulating fruit ripening. Collectively, these data permit a general scheme of the
molecular mechanisms of fruit ripening to be proposed.
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