We cannot accurately determine the diameter of a mature parent cell without further information. However, we can make some estimations based on the size of cells in other organisms. For example, human cells have an average diameter of 10 micrometers. This means that the mature parent cell is likely to be at least this wide. However, it is also possible that the mature parent cell is much larger than this, as some cells in other organisms can reach diameters of up to 100 micrometers. Therefore, the diameter of the mature parent cell is likely to fall somewhere in the range of 10 to 100 micrometers.
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How does the diameter of the mature parent cell compare to that of a cancer cell?
The diameter of the mature parent cell compare to that of a cancer cell is much smaller. A cancer cell is not fully mature and therefore is much smaller.
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How does the diameter of the mature parent cell compare to that of a platelet?
When a cell divides, its diameter decreases. The mature parent cell is about 1/4 the size of a platelet. The diameter of a platelet is about 2.5 micrometers.
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How does the diameter of the mature parent cell compare to that of a virus?
Viruses are extremely small compared to the cells they infect. For example, the influenza virus is about one tenth the size of a human red blood cell. The diameter of a virus ranges from about 20 nanometers (nm) to 300 nm. In contrast, the diameter of a mature parental cell is about 10,000 times larger, at about 10 micrometers (μm). However, it is important to keep in mind that viruses come in a wide range of sizes. For example, the largest known virus, the mimivirus, has a diameter of 400 nm.
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Frequently Asked Questions
Which is the best description of the cell cytoskeleton?
The cell cytoskeleton is a network of flexible fibers that can quickly dismantle and reassemble to change cell shape and the position of cell components. The parent cell typically has a diameter around 2-3 µm.
How much mother volume is needed to produce budding cells?
To quantitatively assess the effect of Whi5 overexpression on mother volume, cells were plated at different dilutions in 96-well plates and images taken every 24 hours. Quantification of cell agglomerates revealed that a mother volume of ~100 fL is sufficient to generate budding cells (Fig. 3a ). Interestingly, when increasing Whi5 expression far beyond the physiological range (>10 tM),mother volumes below 100 fL did not result in any observable increase in the number of budding cells (data not shown). These findings validate the use of a constitutively expressed Whi5 strain to culturcate E. coli for subsequent screen for improved production strains. Figure 3: Effect of mother volume on septin ring diameter and budding frequency. (a) Cells were seeded at different dilutions in 96-well plates and quantified using a fluorescence microscope every 24 hours over 5 days.
Does cell volume explain larger ring diameter in diploids?
Yes, cell volume is a key factor that explains the larger ring diameter in diploids.
Does cell curvature affect septin ring diameter in budding yeast cells?
We first asked if the cell curvature affects septin ring diameter. Our analysis shows no significant effect (ANOVA F = 0.693; P = 2.57 × 10−16) on the septin ring size among different cell morphologies. Therefore, it seems that cell geometry does not play a major role in determining septin ring size in budding yeast cells. What could then be responsible for the observed cell-volume dependence? It is possible that, due to the large difference in local cell curvature, differences in protein concentration or tertiary interactionsmight influence septin ring size more effectively at higher volumes (due to larger contact areas). To test this possibility, we next measured Z-star -based docking profiles of a range of proteins at varied volumes in single cells grown at 37 °C and assessed their impact on molecular docking accuracy. To our surprise, no clear correlation between molecular docking accuracy and cell volume was detected (r2 = 0.083;
How many times greater in volume and surface area will mature cells?
The cells will be approximately 2.4 times their current volume and 1.8 times their current surface area.
Sources
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- https://www.quora.com/How-does-the-size-of-a-bacterium-compare-with-the-size-of-a-virus
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