a b s t r a c tDuring ethylene-indu

a b s t r a c t
During ethylene-induced petal senescence in Dendrobium cv. Khao Sanan flowers, the levels of waterinsoluble
protein in petals decreased but the levels of water-soluble proteins were not affected. Total
peptidase activity in the petals increased from day 1 of ethylene treatment and showed a peak by day
4. Treatment of excised flowers with E-64, a specific inhibitor of cysteine peptidases, prior to ethylene
exposure, almost doubled the time to visible petal senescence. Since the membrane-impermeable form
was used, the results might suggest an effect on an extracellular peptidase. Treatment of the flowers with
1,10-phenanthrolin, a general metal chelator, also doubled the time to ethylene-induced visible petal
senescence. This compound might have several effects other than on metallopeptidases. A partial cDNA
encoding a cysteine peptidase gene (Den-Cys1) in senescent petalswas identified. Its transcript abundance
in petals showed a large increase, within one day of the onset of ethylene treatment. Treatment of the
flowers with ethylene also resulted in an increase in DenCys1 abundance, an increase in total peptidase
activity, and a decrease of soluble protein, in the column (the organ consisting of fused anthers, filaments,
stigma, and style). The results show that senescence, both in petals and the column, is accompanied by
increased peptidase activity and degradation of water-insoluble protein. This is the first report to show
that a specific inhibitor of cysteine peptidases delays the time to petal senescence.
© 2008 Elsevier B.V. All rights reser