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Survival and Cell Acquisition Rates After Preimplantation Embryo Biopsy: Use of Two Mechanical Techniques and Two Mouse StrainsRoudebush, William E., Kim, Jong G., Minhas, Brijinder S., Dodson, Melvin G. 01 January 1990 (has links)
Two strains of mouse embryos at the four- and eight-cell stages had biopsy specimens obtained by means of two different mechanical techniques: aspiration and displacement. Embryos and biopsy specimen cells were evaluated for survival and development. Blastomere acquisition rates were significantly higher with the displacement biopsy technique; however, no difference in survival or developmental rates was found in blastomere biopsy specimens removed from either four-cell or eight-cell embryos. A maximum of one blastomere can be removed from a four-cell embryo, whereas three blastomeres can be taken at biopsy from an eight-cell mouse embryo without significantly affecting embryo development, although mouse strain differences were noted. Intact, viable, biopsied blastomeres will develop in vitro when cocultured with morphologically intact embryos. Births of live offspring after embryo biopsy are reported.
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The effects of temperature on the dispersion and reaggregation stages of development in the annual killifish, Austrofundulus limnaeusCleaver, Timothy Grant 01 January 2012 (has links)
The dispersion and reaggreation [sic] stages have been described as a unique feature of embryonic development in annual killifish such as Austrofundulus limnaeus, a killifish that inhabits ephemeral ponds in the Maracaibo basin of Venezuela. These stages have previously been described as an atypical developmental progression in which blastomeres completely disperse on the surface of the yolk and then reaggregate into a mass of cells to form the embryo. Temperature affects the onset as well as the duration of this stage in related annual fishes. We have undertaken this study to show in detail the behavior of blastomere cells and their distributions as a function of developmental temperature. Embryos incubated at either 25 or 30°C were fixed and stained with Hoescht dye to allow visualization and quantification of cell number during the dispersion and reaggregation phases of development. The location of every cell nucleus on the embryo was assessed through photomicroscopy using inverted epifluorescent microsopy [sic]. This analysis revealed that the rate of cell division during the process of dispersion/reaggergation [sic] has a typical sensitivity to temperature with Q10 values of about 2-3. There is no indication that the pattern of blastomere movement and distribution is different in embryos incubated at 25°C versus 30°C. The primary developmental difference was observed as a temporary plateau in blastomere counts at 25°C followed by great variation of blastomere numbers in subsequent timepoints compared to the degree of variation observed in embryos incubated at 30°C. This trend fits the model that embryos developing at 25°C enter into a brief diapause-like event at the dispersion stage from which they emerge at a variable rate. Of great interest, at both temperatures examined, the majority of the dispersed blastomeres do not reaggregate and contribute to the formation of the primary embryonic axis. Prior studies have overemphasized blastomere reaggregation in A. limnaeus due to the limitations of the sampling methods used as well as overdependence upon a statistical test, the coefficient of dispersion. Thus, the present study sheds light on these early mischaracterizations of A. limnaeus development.
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