Ethylene-Induced Gene Expression in Carnation Petals

Abstract

Exposure of carnation (Dianthus caryophyllus L.) flowers to ethylene evokes the developmental program of petal senescence. The temporal relationship of several aspects of this developmental program following treatment with ethylene was investigated. Exposure of mature, presenescent flowers to 7.5 microliters per liter ethylene for at least 6 hours induced petal in-rolling and premature senescence. Autocatalytic ethylene production was induced in petals following treatment with ethylene for 12 or more hours. A number of changes in mRNA populations were noted in response to ethylene, as determined by in vitro translation of petal polyadenylated RNA. At least 6 mRNAs accumulated following ethylene exposure. The molecular weights of their in vitro translation products were 81, 58, 42, 38, 35, and 25 kilodaltons. Significant increases in abundance of most mRNAs were observed 3 hours following ethylene exposure. Ethylene exposure resulted in decreased abundance of another group of mRNAs. Treatment of flowers with competitive inhibitors of ethylene action largely prevented the induction of these ethylene responses in petals. An increase in flower age was accompanied by an increase in the capacity for ethylene to induce petal in-rolling, autocatalytic ethylene production, and changes in mRNA populations suggesting that these responses are regulated by both sensitivity to ethylene and ethylene concentration. These results indicate that changes in petal physiology resulting from exposure to ethylene may be the result of rapid changes in gene expression.