Proteins are naturally occurring polymers formed by condensation reactions of
amino acids, which have the general structure In this structure, \(-\mathrm{R}\)
represents \(-\mathrm{H},-\mathrm{CH}_{3}\), or another group of atoms; there
are 20 different natural amino acids, and each has one of 20 different \(R\)
groups. (a) Draw the general structure of a protein formed by condensation
polymerization of the generic amino acid shown here. (b) When only a few amino
acids react to make a chain, the product is called a "peptide" rather than a
protein; only when there are 50 amino acids or more in the chain would the
molecule be called a protein. For three amino acids (distinguished by having
three different \(R\) groups, R1, R2, and \(R 3\) ), draw the peptide that results
from their condensation reactions.
(c) The order in which the \(\mathrm{R}\) groups exist in a peptide or protein
has a huge influence on its biological activity. To distinguish different
peptides and proteins, chemists call the first amino acid the one at the "
\(\mathrm{N}\) terminus" and the last one the one at the "C terminus." From your
drawing in part (b) you should be able to figure out what " \(\mathrm{N}\)
terminus" and " \(\mathrm{C}\) terminus" mean. How many different peptides can
be made from your three different amino acids?
