• there are approximately 3,000,000,000 base pairs in the mammalian genome (genes constitute only a small portion of this total)
• there are approximately 10,000 genes in the mammalian genome
• a single gene averages about 10,000 base pairs in size

Questions
1. Based on the assumptions above, in the mammalian genome, how many total base pairs are in all the mammalian genes?

2. What percentage (%) of the total genome does this represent?

3. What is the chance (%) that a random mutation will occur in any given gene?

4. Only 1 out of 3 mutations that occur in a gene result in a change to the protein structure. What is the probability that a random mutation will change the structure of a protein?

Base pairs are the fundamental units, which are found in the double stranded DNA. Approximately mammalian genomes have 3,000,000,000 base pairs, out of which only few percent of the genes are present.

The total base pairs in mammalian genes - 1,000,000,000
The percentage of the total genome - 33%
The random mutation chance - 33%

The random percent mutation will change the protein - 11%

Now, the base pairs are the nitrogenous bases, that forms hydrogen bonds to provide double-helical structure. According to the information given:

there are approximately 3,000,000,000 base pairs in the mammalian genome (genes constitute only a small portion of this total)

there are approximately 10,000 genes in the mammalian genome

a single gene averages about 10,000 base pairs in size

Based on the data:

1. Number of basepairs (bp) in all the mammalian = number of bp in each gene x number of genes = 10,000 x 10,000 = 1,000,000,000

2. 1,000,000,000 is [tex]\dfrac{1}{3}[/tex] of 3,000,000,000, which will be equivalent to = 33%

3. Similarly, a random mutation has 33% of chance to occur in the genetic sequence. The proportion will be 33 %.

4. The probability of random mutation = [tex]\dfrac{1}{3}[/tex] x 0.11 or 11%.

To know more about basepairs, refer to the following link:

https://brainly.com/question/2515127