Prepollination degeneration in mature synergids of pearl millet: an examination using antimonate fixation to localize calcium

Summary The pattern of degeneration in mature synergids of pearl millet prior to pollination was examined by transmission electron microscopy after conventional and antimonate fixation to precipitate loosely sequestered calcium (Ca). The extent of degeneration and the distribution of Ca in a synergid varied among samples, and also between some sister synergids. However, there seemed to be no difference between sister synergids in the total amount of precipitates present in each cell. Characteristic signs of degeneration in the antimonatefixed synergids were: a gap above the filiform apparatus with fibrillar material, precipitates, and fusing or disintegrating membranes; increased precipitates in the nucleus, nucleolus, and endoplasmic reticulum; fusion or collapse of a few vacuoles in the chalazal core with precipitates and flocculent material deposited nearby. The numerous mitochondria and proplastids in the micropylar portion of the synergid remained intact and mostly free of precipitates. The shape and content of the chalazal vacuoles appeared to be disparate and dependent on the fixation procedure as well as the extent of degeneration within a synergid. The results suggest that the sister synergids of pearl millet undergo autonomous degeneration apparently in two independent sequences that may be spatially and temporally separated. The vacuoles appear to be dynamic organelles that store Ca in association with some other material. A high concentration of Ca may be localized along or between the common wall of the two filiform apparatuses.On specific Cooperative Agreement 58-6612-8-002 with the Department of Biochemistry, University of Georgia, Athens, GA 30602, USA