Answer:
False
Step-by-step explanation:
Alpha-keratin protein consists of right-handed alpha-helix. Two individual strands of alpha-helix form coiled-coil which in turn represents its tertiary structure. The quaternary structure of an alpha-keratin protein is stabilized by cross-links. These cross-links are disulfide bonds formed by cysteine residues. The alpha keratin with a higher number of cysteine residues is harder and tougher.
Both methionine and cysteine are sulfur-containing amino acids. However, the absence of free -SH group in methionine does not allow this amino acid to form disulfide bonds. Cysteine has a free SH group to allow the formation of disulfide bonds. Therefore, a mutation in the alpha-keratin gene resulting in the substitution of cysteine with methionine will reduce the stability of the protein by reducing the number of disulfide cross-links