3min time–dose can be related to a

3min time–dose can be related to a differential cellular compartmentation
of the enzyme and sucrose (Holland et al., 1999), but
other enzymes related to carbohydrate metabolism could also contribute
to this fact (Hilal et al., 2004).
The cell wall-bound invertase catalyses the irreversible cleavage
of the sucrose released into apoplast through specific sucrose
transporters (Pan et al., 2006). Resulting hexoses can either be
imported into sink cells by specific monosaccharide transporters
to act as signal molecules to induce the expression of defencerelated
genes, or to supply substrates for both energy and carbon
skeleton for the synthesis of secondary metabolites (Berger et
al., 2007; Rosa et al., 2009). Agreeing with these considerations,
we found in lemon flavedo an UVB-induced increase of both UVB
absorbing and phenolic compounds and cell-bound invertase
activity (Figs. 1a, b and 3a). Nevertheless, cell wall-bound invertase
and secondary metabolites patterns were different suggesting
that cell-wall invertase-derivate hexoses must be channelled into
both synthetic and signalling pathways. We also postulate that the
trafficking hexoses between albedo and flavedo could also contribute
to enzyme regulation by changing substrate concentrations.
In addition, the low level of alkaline invertase observed in the
lemon peel and the lack of UV-B effect agree with previous reports
indicating that the alkaline invertase does not play any important
role into sucrose metabolism of mature fruits (Ohyama et al.,
1995; Stepansky et al., 1999). Hence, according to our results we
believe that soluble and cell wall-bound acid invertases are the key
enzymes involved in both sucrose cleavage and carbon flux in the
peel of UVB-treated lemons. Noteworthy, that SS was only measured
in the sucrose direction, and then further analyses are needed
to clarify the true role of this enzyme into carbohydrate metabolism
in the peel of UVB-irradiated lemons. Since the UV-B radiation also
induces an oxidative stress in the flavedo of irradiated lemons (Hilal
et al., 2008), the decrease of sucrose and fructose content observed
at 5min time–dose could be related to supply of carbon skeleton
to antioxidant compound synthesis. Further efforts are needed to
obtain a complete picture of relationships among UV-B radiation,
carbohydrate metabolism, secondary metabolites, oxidative stress
and sugar signals in postharvest lemons.