While writing your lecture notes you are trying to develop a

While writing your lecture notes, you are trying to develop a way to impart to your students how the removal of a water molecule, a hydroxyl and a hydrogen atom, will be used in making macromolecules. A molecule is a collection of atoms joined through different types of bonds. A macromolecule is the joining of numerous molecules into something that is relatively quite large. The addition of a molecule to a macromolecule, as well as the removal of a molecule from the macromolecule, involves a molecule of water. From past experience you are aware that when you state this to your students many will unfortunately assume you are referring to liquid water. Your students must understand that in biological reactions water, H₂O, is actually a hydroxyl group (-OH) and a hydrogen atom (H⁺) that will be removed or added when altering macromolecules. A dehydration synthesis (removal of water) reforms atomic bonds between molecules to create a larger macromolecule. In a dehydration reaction, a hydroxyl group is removed from one reactant molecule while a hydrogen atom is stripped from another reactant molecule.

Reactant (with hydroxyl group) + Reactant (with hydrogen ion) = Product + H₂O

The open bonds will be reformed joining the two molecules, while the hydroxyl and hydrogen atom will be released as water. The reverse of a dehydration synthesis is a hydrolysis reaction, in which a bond between two molecules is stressed by an enzyme and a hydroxyl group when a hydrogen atom is added into the bond. Whereas a dehydration synthesis creates a macromolecule, a hydrolysis reaction breaks one apart.

Choose from the following statements the one that best describes the reactions illustrated in the figure above.

a. Using energy, an enzyme removes a hydroxyl group from the amino group of one amino acid and a hydrogen atom from the carboxyl group of another amino acid to join the amino acids in a dehydration reaction that releases water. Alternatively, another enzyme breaks the peptide bond and uses a water molecule to join a hydroxyl group to the carboxyl group of one amino acid and a hydrogen atom to the amino group of another amino acid in a hydration reaction.

b. Using energy, an enzyme removes a hydroxyl group from the carboxyl group of one amino acid and a hydrogen atom from the amino group of another amino acid to join the amino acids in a dehydration reaction that releases water. Alternatively, another enzyme breaks the peptide bond and uses a water molecule to join a hydrogen atom to the carboxyl group of one amino acid and a hydroxyl group to the amino group of another amino acid in a hydration reaction.

c. Using energy, an enzyme removes a hydroxyl group from the carboxyl group of one amino acid and a hydrogen atom from the amino group of another amino acid to join the amino acids in a hydration reaction that releases water. Alternatively, another enzyme breaks the peptide bond and uses a water molecule to join a hydroxyl group to the carboxyl group of one amino acid and a hydrogen atom to the amino group of another amino acid in a dehydration reaction.

D. Using energy, an enzyme removes a hydroxyl group from the carboxyl group of one amino acid and a hydrogen atom from the amino group of another amino acid to join the amino acids in a dehydration synthesis reaction that releases water. Alternatively, another enzyme breaks the peptide bond and uses a water molecule to join a hydroxyl group to the carboxyl group of one amino acid and a hydrogen atom to the amino group of another amino acid in a hydrolysis reaction

OH Small molecule Dehydration synthesis Large molecule Hydrolysis OH Energy Small molecule OH H20 H H2O Energy OH H20 Larger molecule H2O OH OH Small molecule Small molecule

Solution

D. Option is the correct option suitable for the illustrated reaction above.

Because the two reaction given describes dehydration synthesis and hydrolysis (reverse of dehydration).

According to the reaction 1. When two molecules like amino acids they combine to form a larger macromolecule, water(H2O) is removed. And this is called a dehydration reaction as explained in point D.

According to reaction 2. When a water is added to a molecule it separates the H2O bond into OH and H causing lysis and forming separate molecules.And this is called a hydrolysis reaction, hydro means water and lysis means breaking down. A hydrolysis involves addition of water first and then removal of groups.

Option A is incorrect as it described the hydroysis as hydration reaction, whereas hydration means addition of water to a compound.

Option B is incorrect as it described hydrolysis as hydration reaction.

Option C is incorrect as it described hydrolysis as dehydration reaction, which actually is a reverse of dehydration.