From 12 to 24 h after the opening of daylily flowers (Hemerocallis hybrid cv. Stella d'Oro), the petals begin to degrade and the protein levels of soluble, microsomal‐ and plastid‐enriched fractions decrease by 50%, on a per petal basis. To help determine some of the components for the cell death program in daylily petals, we studied the mechanisms that regulate this loss of protein. Enzyme activities capable of digesting native daylily protein, gelatin, and azocasein markedly increase after flower opening, and their appearance is inhibited by the translation inhibitor, cycloheximide. Protein hydrolysis in vitro is prevented by inhibitors of cysteine, serine and metalloproteinases. Immunoblots using antibodies to ubiquitin pathway enzymes indicate that the ubiquitin system is not senescence specific. However, ion leakage is delayed by two inhibitors of the 26S proteasome. We propose that programmed cell death in daylily petals may involve the increase in activity of at least three classes of proteinases, and discuss the possibility that these proteinases may operate in concert with the ubiquitin pathway.
The selective degradation of proteins, an essential process of any developmental program, may entail conjugation of the protein to be destroyed to the polypeptide ubiquitin. Experiments were designed to localize ubiquitin as a first step in determining whether this molecule is crucial for certain developmental processes in plant tissues and cells. Antibodies to ubiquitinated protein were detected on tissue prints of cross sections of bean petioles (Phaseolus vulgaris, Fabaceae), cotton hypocotyls (Gossypium hirsutum, Malvaceae), and Coleus stems (Coleus x hybridus, Lamiaceae). For most of the material investigated, there appears to be an accumulation of ubiquitin antibodies in vascular tissues, but not preferentially in the abscission zone of bean petioles. Vascular localization was confirmed using immunohistochemical methods on fixed and sectioned internodal tissues of Coleus. Antibodies to ubiquitin are detected in parenchyma cells of the cortex and pith, but are most concentrated in the xylem, especially secondary xylem, and in the cambial region, and in the phloem. Thus, ubiquitin accumulates in certain vascular tissues, some of which may be undergoing programmed cell death. Ubiquitin can also be detected in nondifferentiating cells, and its level is elevated in rapidly dividing cambial cells.
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