Abstract

Nuclear and cell migration during pollen development in rice were studied using semi-thin section light microscopy, differential interference contrast microscopy and epifluorescence microscopy. Four migrations of nuclei and cells were observed and described in detail here. The first nuclear migration occurs at the uninucleate microspore stage, when the nucleus of the microspore migrates from the center to the periphery of the cell, and then to the wall opposite the pollen aperture where pollen mitosis I takes place. The second migration occurs at the early bicellular pollen stage, with the vegetative nucleus migrating three-quarters of the circumference of the pollen wall, finally locating at the periphery of the wall where the microspore cell nucleus is positioned. The third migration occurs at the late bicellular pollen stage, with the vegetative nucleus migrating from the periphery of the cell to the central part of the pollen and the generative cell migrating from the opposite side of the aperture to a position between the aperture and the vegetative nucleus where pollen mitosis II takes place. The fourth migration appears at the mature pollen stage when the two sperm cells and the vegetative nucleus migrate to the opposite side of the aperture, finally becoming positioned in the cytoplasm of the vegetative cell distal to the aperture where the “male germ unit” forms. Cytological observations of pollen abortion resulting from allelic interaction at the S-a, S-b and S-c loci show that abnormalities in the first or second nuclear migration result in the formation of empty abortive pollen, whereas abnormalities in the third or fourth migrations cause production of stainable abortive pollen.

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