Answer:
A
Explanation:
<em>The active state of cell division covers the prophase, metaphase, anaphase, and telophase. The total number of observed cells that were undergoing cell division can, thus, be calculated by adding the number of cells in each stage of the cell division.</em>
Total number of cell in division = 20+4+2+4
= 30
Probability that a randomly chose cell will be undergoing cell division = <em>number of cells in division/total number of cells</em>
= 30/200
= 0.15 or 15%
The correct option is, therefore, A.
The correct answer in the given statement above in a way of
completing it is the MMR. The MMR vaccine is a vaccine used for immunization in
means of fighting certain diseases such as rubella, mumps and even measles in
which is being administered by injection.
If the genetic code used four bases as a code instead of three then <u>256 units could be encoded.</u>
<u>Explanation:</u>
There are 4 DNA bases that can make up the hereditary code. On the off chance that the codon for every amino corrosive was comprised of just 2 bases, just 16 unique codons would be conceivable.
<u>Given:</u>
1 Bases = 
DNA bases
2 Bases = 
DNA bases
3 Bases = 
DNA bases
4 Bases = 
DNA bases
Unmistakably this isn't sufficient. Be that as it may if every ha a codon made up of 3 bases (similar to the case) there are 64 potential blends which are all that could possibly be needed.
So for 4 bases, just 256 unique codons would be conceivable.
