Abstract
An optical tomography investigation of the nuclear cycle in large freshwater amoebae Amoeba proteus has been performed for the first time. Nuclei of cells from a synchronized culture were stained with DAPI and examined using a confocal laser scanning microscope. Detailed analysis of three-dimensional images of the intranuclear chromatin at different stages of the nuclear cycle has been performed. The materials obtained, in combination with the published data, allow for a completely new representation of the dynamics of the structural organization of the A. proteus nucleus during the cell cycle. Two-stage interphase and mitosis of a special type not matching any of the known types in the existing systems of classification of mitosis were found to occur in amoebae. Amplification of chromosomes and/or fragments thereof supposedly occurs during the cell cycle, which is consistent with the available data on nuclear DNA hyperreplication during the cell cycle of A. proteus. The number of chromosomes can vary at different stages of the cycle because of amplification, this being a putative reason for the discordant reports on the number of chromosomes in this species. The elimination of “excess” DNA mainly occurs during the transition from prophase to prometaphase. Finally, specific features of chromosome behavior during mitosis allow conclusion to be drawn that many, if not all, chromosomes are of a holocentric type.
Published Version
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