Summary
The process of microsporogenesis and microgametogenesis was studied at the ultrastructural level in wild-typeArabidopsis thaliana ecotype Wassilewskija to provide a basis for comparison with nuclear male-sterile mutants of the same ecotype. From the earliest stage studied to mature pollen just prior to anther dehiscence, microsporocyte/microspore/pollen development follows the general pattern seen in most angiosperms. The tapetum is of the secretory type with loss of the tapetal cell walls beginning at about the time of microsporocyte meiosis. Wall loss exhibits polarity with the tapetal protoplasts becoming located at a distance from the inner tangential walls first, followed by an increase in distance from the radial walls beginning at the interior edge and progressing outward. The inner tangential and radial tapetal walls are completely degenerated by the microspore tetrad stage. Unlike other members of the Brassicaceae that have been studied, the tapetal cells ofA. thaliana Wassilewskija also lose their outer tangential walls, and secretion occurs from all sides of the cells. Exine wall precursors are secreted from the tapetal cells in a process that appears to involve dilation of individual endoplasmic reticulum cisternae that fuse with the tapetal cell membrane and release their contents into the locule. Following completion of the exine, the tapetal cell plastids develop membranebound inclusions with osmiophilic and electron-transparent regions. The plastids undergo ultrastructural changes that suggest breakdown of the inclusion membranes followed by release of their contents into the locule prior to the complete degeneration of the tapetal cells.
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References
Charzynska M, Murgia M, Milanesi C, Cresti M (1989) Origin of the sperm cell association in the “male germ unit” ofBrassica pollen. Protoplasma 149: 1–4
Dahl OA (1986) Observations on pollen development inArabidopsis under gravitationally controlled experiments. In: Blackmore S, Ferguson IK (eds) Pollen and spores: form and function. Academic Press, London, pp 49–59
Dawson J, Eilson ZA, Aarts MGM, Braithwaite AF, Briarty LG, Mulligan BJ (1993) Microspore and pollen development in six male-sterile mutants ofArabidopsis thaliana. Can J Bot 71: 629–638
Dickinson HG (1973) The role of plastids in the formation of pollen grain coatings. Cytobios 8: 25–40
—, Lewis D (1973) The formation of the tryphine coating the pollen grains ofRaphanus, and its properties relating to the self-incompatibility system. Proc R Soc Lond [Biol] 184: 149–165
Feldmann KA (1991) T-DNA insertion mutagenesis inArabidopsis: mutational spectrum. Plant J 1: 71–82
— (1992) T-DNA insertion mutagenesis inArabidopsis: seed infection/transformation. In: Koncz C, Chua N, Schell J (eds) Methods inArabidopsis research. World Scientific, Singapore, pp 274–289
Grant I, Beversdorf WD, Peterson RL (1986) A comparative light and electron microscopic study of microspore and tapetal development in male fertile and cytoplasmic male sterile oilseed rape (Brassica napus). Can J Bot 64: 1055–1068
Hoefert LL (1968) Polychromatic stains for thin sections ofBeta embedded in epoxy resin. Stain Technol 43: 145
— (1971) Ultrastructure of tapetal cell ontogeny inBeta. Protoplasma 73: 397–406
Iversen T-H (1970) The morphology, occurrence distribution of dilated cisternae of the endoplasmic reticulum in tissues of plants of the Cruciferae. Protoplasma 71: 467–477
Kaul MLH (1988) Male sterility in higher plants. Springer, Berlin Heidelberg New York Tokyo
Meyerowitz EM (1987)Arabidopsis thaliana. Annu Rev Genet 21: 93–111
— (1989)Arabidopsis, a useful weed. Cell 56: 263–269
Murgia M, Charzynska M, Rougier M, Cresti M (1991) Secretory tapetum ofBrassica oleracea L.: polarity and ultrastructural features. Sex Plant Reprod 4: 28–35
Pacini E, Franchi GG, Hesse M (1985) The tapetum: its form, function and possible phylogeny in Embryophyta. Plant Syst Evol 149: 155–185
Polowick PL, Sawhney VK (1990) Microsporogenesis in a normal line and in theogu cytoplasmic male-sterile line ofBrassica napus. I. The influence of the high temperatures. Sex Plant Reprod 3: 263–276
— — (1991) Microsporogenesis in a normal line and in theogu cytoplasmic male-sterile line ofBrassica napus. II. The influence of intermediate and low temperatures. Sex Plant Reprod 4: 22–27
Redei GP, Koncz C (1992) Classical mutagenesis. In: Koncz C, Chua N, Schell J (eds) Methods inArabidopsis research. World Scientific, Singapore, pp 16–82
Regan SM, Moffatt BA (1990) Cytochemical analysis of pollen development in wild-typeArabidopsis and a male-sterile mutant. Plant Cell 2: 877–889
Smith MM, McCully ME (1978) A critical evaluation of the specificity of aniline blue induced fluorescence. Protoplasma 95: 229–254
Sutherland J, McCully ME (1976) A note on the structural changes in the walls of pericycle cells initiating lateral root meristems inZea mays. Can J Bot 54: 2083–2087
Stanley RG, Linskens HF (1974) Pollen: biology, biochemistry, management. Springer, New York Heidelberg Berlin
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Owen, H.A., Makaroff, C.A. Ultrastructure of microsporogenesis and microgametogenesis inArabidopsis thaliana (L.) Heynh. ecotype Wassilewskija (Brassicaceae). Protoplasma 185, 7–21 (1995). https://doi.org/10.1007/BF01272749
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DOI: https://doi.org/10.1007/BF01272749