Introduction to Biochemistry III

Properties of water

• Polar: electrons shared unequally causing a difference in change from one side of the molecule to the other
• Enables water to act as a universal solvent

• Molecules form a dipole, tetrahedral shape

• Molecules are held together with H bonds

Hydrophobic effect

• The observed tendency of non-polar substances to aggregate in aqueous solution and exclude water molecules - micelles, lipid bilayer, ‘oil slick’

Amphipathic molecules

• Amphipathic molecules are moelcules with a polar (hydrophilic) ‘head’ and a non-polar (hydrophobic) tail

• Form micelles, and the lipid bilayer of membranes

Amino acids

Structure of amino acids

• ⍺-carbon bonded to:
• Amino group (-NH2)
• Carboxyl group (-COOH)
• A hydrogen (-H)
• A side chain (-R)

Classification of amino acids

• Non-polar, hydrophobic

• Polar, hydrophobic

• Acidic

• Basic

Peptide bonds

• Join amino acids

• Produced by a condensation reaction

• Important for folding of proteins

Acids and bases

Base

• Proton acceptors

Acid

• Molecule that can donate a proton (H+)

• Strength of acid depends on how readily it donates a proton to a base
• Measured by the acid dissociation constant Ka
• Ka = [H+][A-]/[HA]
• pKa = -log10[Ka]

pH

• The measurement of the number of protons in a solution

• pH = -log10[H+]

Henderson-Hasselbalch equation

• Connects the Ka of a weak acid with the pH of a solution containing this acid

• pH = pKa + log[A]/[HA]

Buffers

• A solution used to control the pH of a reaction mixture

• When the concentration of acid is equal to the concentration of the conjugate base, pH = pKa

• At their pKa value, buffers tend to resist a change in pH on addition of moderate amounts of acid or base

pH and proteins

• Change in pH can change the ionisation of protein, therefore change its structure and function