Alright, so we know that mitosis contains <span>prophase, metaphase, anaphase, and telophase. You can add all the cells in these 4 phases together.
</span>13 cells in prophase, 12 cells in metaphase, 3 cells in anaphase, and 2 cells in telophase.
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13+12+3+2= 30 cells
So, 30 cells are in mitosis, but don't forget to add the 30 to the already 90 in interphase to find out how many cells there are in all.
30+90=120 cells in all
After this, you just need to divide 30/120 to get simplified 1/4. This means that mitosis takes up 1/4 of the total cell cycle. <em>If you want to find this in hours, just multiply 1/4 by 24 (hours in a day) to get 6. </em>
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Explanation:
If the mutation changes the sequence of nucleotides in the DNA, the genotype will change. This change in genotype will give rise to different sequence of amino acids in the polypeptide formed after translation. This different protein may be non-functional or reduced in function, which may ultimately change the phenotype as well.
However, it is important to note that the phenotype may or may not change depending on the type of mutation. If the mutation causes a totally different protein to be synthesized during translation, the phenotype will be greatly affected as well. If the mutation only changes one or two amino acids in the final polypeptide, there might be no visible chanhlge in the phenotype.
<span>The dark, cold waters of much of the deep sea have adequate oxygen. This is because cold water can dissolve more oxygen than warm water, and the deepest waters generally originate from shallow polar seas. In certain places in the northern and southern seas, oxygen-rich waters cool off so much that they become dense enough to sink to the bottom of the sea. </span>
