Answer:
e. unique three-dimensional shape of the fully folded polypeptide.
Explanation:
The tertiary structure of a protein is the unique three-dimensional structure which emanates from the interaction between the “R groups” of the several amino acids that make up the polypeptide. Hydrogen bonding is one of the interactions that occur that gives the protein this structure. Other interactions are ionic bonding, dipole-dipole interactions, hydrophobic interactions, among others. The function of a protein is dependent on its tertiary structure, as a disruption of the tertiary structure causes a protein to be denatured, thereby rendering the protein not functional.
Answer:
e. unique three-dimensional shape of the fully folded polypeptide
Explanation:
The arrangement of protein molecule in a compact form from the 3-D coiling or folded chains of amino acids is tertiary structure. It is the bonding and interaction (disulphide and hydrophobic interaction) of secondary and primary protein(amino acid sequence) structure which result in 3-D folding or arrangements in a compact form. Each tertiary protein structure usually contain a polypeptide chain with the amino acids sides chains. it is the interactions of these amino acids sides chains within the protein which determines the tertiary structure.
Tertiary proteins are stabilized by the disulphide bridges and hydrogen bonding used to form 3-D arrangements.
Examples are- lysozyme and myoglobin. Generally globular proteins are tertiary proteins.
