Senescence-associated mRNAs that may participate in signal transduction and protein trafficking

Abstract

The differential display technique was used to generate cDNA probes in order to identify mRNAs that are up-regulated during senescence of Arabidopsis leaves. Three mRNAs were examined that had not previously been associated with senescence. The steady-state levels of these mRNAs are detectable in small amounts in mature green leaves, but increase considerably as chlorophyll levels begin to decline. This relationship to senescence occurs under natural circumstances as well as when senescence is accelerated by leaf detachment in the dark or by addition of 1-aminocyclopropane-1-carboxylic acid (ACC). Retardation of senescence by benzyladenine slows the increase of the mRNAs. One of these mRNAs appears to code for a protein (Sec 13) that may be involved in vesicle formation at the endoplasmic reticulum. Another mRNA codes for a protein with WD-repeat motif whose function is as yet unidentified, and the third codes for a putative calcium-dependent protein kinase. A fourth cDNA has also been cloned by subtractive hybridization from senescing Arabidopsis leaves that encodes vacuolar-processing enzyme (γVPE). Incubation of detached leaves in darkness also caused an abrupt elevation in the steady-state levels of the γVPE, similar to that of the senescing attached leaves. The possible functions of the gene products and their involvement in cellular and biochemical processes during senescence are discussed.