Proteins Flashcards
Amino acids
A molecule made from an amine group (NH2), a carboxyl group (COOH), an R group (which can be many different molecules, e.g. a H atom) and a central carbon atom attached to a H atom
Proteins
Proteins are polymers of amino acids joined by peptide formed between the carboxyl group of one amino acid and the amine group of another. Peptide bonds are formed by condensation reactions
Primary protein structure
The linear sequence of amino acids in a polypeptide; the sequence determines the location and type of chemical bonds between R bonds, which in turn determine the folding of the polypeptide
Secondary protein structure
An ɑ-helix (spiralled shape) or a ß-pleated sheet held together by hydrogen bonds
Tertiary structure
The 3D folding of the secondary structure which form globular proteins
Globular proteins
Proteins held together by (very strong) disulphide bonds, (weak) hydrogen bonds and ionic bonds (broken by changes in pH) between R groups of non-adjacent amino acids. Globular proteins contain an active site with a specific shape formed by chemical bonds, and include enzymes, antibodies and hormones. Hydrophobic interactions (on the inside of the protein) and hydrophilic interactions (on the outside of the protein) between the R groups also determine the shape, and allow the protein to be soluble
Fibrous proteins
Straight, unfolded chains with little tertiary structure, these structural proteins are found in connective tissue and tendons, and in hair and nails as keratin
Quarternary structure
The 3D arrangement of more than one tertiary polypeptide (e.g. haemoglobin)
Substrate concentration
The maximum rate of reaction (Vmax) is limited by the number (concentration) of enzymes
Enzyme concentration
Vmax is limited by the concentration of substrate
pH
Different enzymes have different optimal pH levels
Temperature
With a low temperature, the enzyme and substrate have a low kinetic energy, so fewer collisions lead to few enzyme-substrate complexes and a lower rate of reaction. With a high temperature, the bonds holding an active site in its shape break and the the shape changes, leading to fewer enzyme-substrate complexes and a low rate of reaction
Competitive inhibition
The inhibitor fits into the active site and prevents the substrate from reacting to create a product
Non-competitive inhibition
A molecule binds to a protein and changes the shape of the active site; this is a type of reversible inhibition
Enzymes
Enzymes are biological catalysts that reduce the activation energy of chemical reactions. They are produced by cells and speed up the rate of chemical reactions. They have an optimum temperature of 40˚C. The body stays at 37˚C in order to provide a buffer against further temperature increases. They have a 3D, globular structure, determined by the sequence of amino acids in their primary structure. Because they have a high number of polar amino acids, they are soluble in water
