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Male gametophyte development inPlumbago zeylanica: cytoplasm localization and cell determination in the early generative cell (1995)

Sodmergen ; Chen, G. H. ; Hu, Z. M. ; [et al.]

Springer

Protoplasma 186 (1995), S. 79-86

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ISSN: 1615-6102

Keywords: Cytoplasm localization ; Cell determination ; Generative cell ; Plastid nucleoid ; Plumbago zeylanica

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The behavior of the generative cell during male gametophyte development inPlumbago zeylanica was examined by epifluorescence microscopy and electron microscopy with organelle nucleoid as a cytoplasm marker. When the thin sections stained with 4′,6-diamidino-2-phenylindoIe (DAPI) were observed under an epifluorescence microscope, two types of fluorescence spots were detected in the cytoplasm of the pollen cells before the second mitosis. The spots emitting stronger fluorescence were confirmed as plastid nucleoids and those emitting dimmer fluorescence were mitochondrial nucleoids. Before the first mitosis, both plastid and mitochondrial nucleoids distributed randomly in the cytoplasm of the microspore. A small lenticular generative cell formed with attachment to the interior of the intine after the mitosis. Small vacuoles were found in the lenticular cell. In the cytoplasm of the lenticular cell, both plastid nucleoids and the small vacuoles were distributed randomly at the very beginning but began to migrate in opposite directions immediately. Plastid nucleoids aggregated to the side of the cell that faces the pollen center and the small vacuoles aggregated to the side of the cell that attaches to the inline. As the result, the lenticular generative cell appeared highly polarized in cytoplasm location soon after the first mitosis. In accordance with the definition of the cytoplasm polarization, the primary wall between the generative and the vegetative cells began to flex and the lenticular generative cell started to protrude towards the pollen center. When the generative cell peeled away from the inline, it was spherical in shape with the pole that aggregated plastids towards the vegetative nucleus. But the cell direction appeared to be transformed immediately. The pole that aggregated small vacuoles turned to the position towards the vegetative nucleus and the pole that aggregated plastid nucleoids turned to the position countering to the vegetative nucleus. A cellular protuberance formed at the edge of the pole that aggregated small vacuoles and elongated into a tapered end that got into contact with the vegetative nucleus. The polarization of the cytoplasm kept constant throughout the second mitosis. The small vacuoles that apportioned to the sperm cell which attached the vegetative nucleus (the leading sperm cell) disappeared during sperm cell maturation. Plastid nucleoids were apportioned to the other sperm cell (the trailing sperm cell) completely. Mitochondrial nucleoids became undetectable after the second mitosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01276939

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Cytological evidence of biparental inheritance of plastids and mitochondria inPelargonium (1995)

Guo, F. L. ; Hu, S. Y.

Springer

Protoplasma 186 (1995), S. 201-207

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ISSN: 1615-6102

Keywords: Biparental inheritance ; Plastid transmission ; Mitochondrion transmission ; Fertilization ; Pelargonium

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Based on the organelle differences between egg and sperm cells inPelargonium hortorum, the zygote, proembryo, and endosperm were examined under the transmission electron microscope. Plastids and mitochondria in the egg cell are significantly different from those of the sperm cell. Egg plastids are starch-containing and less electron dense. They appear circular, elliptical irregular elongate in sections. Sperm cell plastids are relatively electrondense, mostly cup-shaped or dumbbell and devoid of starch granules. Mitochondria of the egg cell are giant and mostly cup-shaped while sperm mitochondria are smaller and usually circular in section. Double fertilization is completed by 24 h after pollination and the pollen tube can be seen in the degenerated synergid. In the zygote, plastids and mitochondria from male and female gametes can be distinguished by their characteristic differences. Moreover, paternal and maternal organelles appear to be distributed at random in the zygote. Aside from the pollen tube and its released starch granules, there is no enucleated cytoplasmic body in the degenerated synergid. Two days after pollination, the zygote undergoes one transverse division to form a 2-celled proembryo which consists of one larger vacuolated basal cell and one smaller densely cytoplasmic apical cell. Paternal and maternal organelles can be detected in both cells of the proembryo and also in the endosperm at this stage. From these results, it can be concluded that plastids and mitochondria from both male and female gametes have been transmitted into the apical cell of the proembryo and most probably to the following generation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01281330

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