| 31. | An anucleated cell contains no nucleus and is, therefore, incapable of dividing to produce daughter cells.
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| 32. | The centrosome cycle is important to ensure that daughter cells receive a centrosome after cell division.
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| 33. | Every daughter cell will reflect the genetic modification.
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| 34. | Consequently, cytoplasmic bridges assure connection between the clones of differentiating daughter cells to form a syncytium.
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| 35. | This allows the cell to divide properly with each daughter cell containing full replicas of chromosomes.
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| 36. | During reproduction a second shell is formed opposite the opening, so both daughter cells remain protected.
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| 37. | Thus, a single growth step may result in 4 or 8 daughter cells per mother cell.
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| 38. | This preserves the integrity of the original DNA strand that is passed onto the daughter cells.
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| 39. | Such single-copy plasmids have systems that attempt to actively distribute a copy to both daughter cells.
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| 40. | One daughter cell receives both sister chromatids from the nondisjoining chromosome and the other cell receives none.
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