Abstract
Successful development and dehiscence of the anther and release of pollen are dependent upon the programmed cell death (PCD) of the tapetum and other sporophytic tissues. Ultrastructural examination of the developing and dehiscing anther of tomato (Solanum lycopersicum) revealed that cells of the interlocular septum, the connective tissue, the middle layer/endothecium, and the epidermal cells surrounding the stomium all exhibit features consistent with progression through PCD. Ricinosomes, a subset of precursor protease vesicles that are unique to some incidents of plant PCD, were also present in all of these cell types. These novel organelles are known to harbor KDEL-tailed cysteine proteinases that act in the final stages of corpse processing following cell death. Indeed, a tomato KDEL-tailed cysteine proteinase, SlCysEP, was identified and its gene was cloned, sequenced, and characterized. SlCysEP transcript and protein were restricted to the anthers of the senescing tomato flower. Present in the interlocular septum and in the epidermal cells surrounding the stomium relatively early in development, SlCysEP accumulates later in the sporophytic tissues surrounding the locules as dehiscence ensues. At the ultrastuctural level, immunogold labeling localized SlCysEP to the ricinosomes within the cells of these tissues, but not in the tapetum. It is suggested that the accumulation of SlCysEP and the appearance of ricinosomes act as very early predictors of cell death in the tomato anther.
Highlights
Successful development and dehiscence of the anther and release of pollen are dependent upon the programmed cell death (PCD) of the tapetum and other sporophytic tissues
We investigate the ultrastructural details of the progression of PCD in the connective, middle layer/endothecial tissues and the epidermal cells defining the stomium in developing anthers of tomato
The pair of locules within each theca is divided by four to six cell layers of connective tissue, with the interlocular septum marking the region separating the connective tissue from the stomium (Fig. 1B)
Summary
Successful development and dehiscence of the anther and release of pollen are dependent upon the programmed cell death (PCD) of the tapetum and other sporophytic tissues. Koltunow et al (1990) do not refer to PCD directly, transcripts encoding one proteinase increase dramatically and in a sequential manner in the circular central cells, the stomium, and subsequently in the connective tissue and endothecium cells surrounding the locules All of these tissues undergo PCD and play a role in anther dehiscence and pollen release (Bonner and Dickinson, 1989; Varnier et al, 2005), suggesting a role for the encoded proteinase in PCD. It should be mentioned, that neither the study by Koltunow et al (1990) nor Xu and Chye (1999) dealt with the actual Cys proteinase, but only with relative transcript abundance during development
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