The possible answers are:
A. Variation in length of the amino acid backbone
B. Each protein is encoded by a distinct gene
C. Variations in the type of peptide bond
D. Variations in the glycosidic linkage
E. Variation in tertiary structure
<span>F. Variations in which amino acids are used
The correct answers are A,E and F
There are only 20 amino acids that make all of the proteins in our bodies. However, there are options for protein variation are almost unlimited.
Firstly, you can vary the number of different amino acid that you use to make a protein.
Secondly, you can also vary the length of the amino acid chain.
And thirdly, when an amino acid chain is formed different parts of the chain interact with each other, bonding chemically, forming different 3-dimensional structures of the protein.
All of this contributes to the vast variation in proteins.</span>
Genetic diversity occurs through natural selection and the process of natural selection is a evolutionary process which occurs with time and ages through the generations.
While genetic variation is caused by mutation, random fertilization and recombination. This usually occurs during cell division and reproduction or any infection.
Thus Genetic diversity is a long process while the genetic variation is an immediate process of producing variation in the genes.
Living things store energy through a complex process which eventually ends up in what we call fat cells, adipocytes or lipocytes. So in essence, livings things store energy in fat cells. Fat cells are the main storage location of our energy and serve as a fuel when we're physically active for a long enough time.
<span>it is false.</span> it can't because it a guest so no.
Answer:
Since certain bases always appear in pairs, they will have equal percentages of the DNA composition. The percentage of adenine will equal the percentage of thymine, and the percentage of cytosine will equal the percentage of guanine. Together, these percentages will add to 100%.
Explanation: