Protein structure - Primary

1. Protein structure - Primary • *use diagrams from textbook instead, pg. 8 & 9, for first 3 slides • Order and number of amino acids in a protein chain for example the protein insulin has over 50 amino acids in its chain arranged in a definite order.

2. Secondary Structure*Use diagrams from textbook • Involves the folding of the protein chain into a spiral or zig-zag shape • This structure is caused by crosslinks that form between different chains or within the one chain. • There are different types of cross-links (a) Disulphide links which happen when 2 Sulphur atoms bond e.g. cysteine (b) Hydrogen bonds where a Hydrogen atom in one chain bonds with an Oxygen atom in another chain.

3. Tertiary Structure • This refers to the 3 dimensional folding of the chain. This structure can be globular or fibrous. The shapes give certain properties to the protein • Globular : In these the protein chain is rolled up like a ball of wool. This structure makes the protein soluble. This type of protein is found in body cells, myoglobin in meat, albumin in egg, haemoglobin in blood. • Fibrous: In these the protein chain takes on a straight, coiled or zig-zag shape. These shapes make the protein insoluble and stretchy or tough. Gluten in wheat and elastin in meat have a coiled structure. Collagen in meat has a zig-zag structure.

4. PROTEIN CLASSIFICATION • SIMPLE CONJUGATED DERIVED • These proteins are formed due • to a chemical or enzyme action on a • protein : i.e: Rennin acts on • caesinogen and makes caesin PROTEIN + NON-PROTEIN Protein + Lipid = Lipoprotein (lecithin) Protein + Phosphate = Phosphoprotein (caesin) Protein + nucleic acid = Nucleoprotein (DNA) Protein + Colour Pigment = Chromoprotein (Haemoglobin) ANIMAL PLANT Classified Classified GLUTENINS : Soluble in acids & alkali according according e.g. Glutenin in wheat to shape to solubility PROLAMINES: Soluble in alcohol FIBROUS GLOBULAR e.g. gliadin in wheat e.g.Collagene.g albumin

5. Properties of Protein • Denaturation • Denaturation is a change in the nature of the protein • The protein chain unfolds, causing a change to the structure • Denaturation is caused by a) heat, b) chemicals and c) agitation • It is often an irreversible process • Heat • Most proteins coagulate/set when heated. • E.g. Egg white coagulates at 60˚C; egg yolk coagulates in the stomach at 68˚C • Chemicals • Acids, alkali, alcohol & enzymes cause changes to the protein structure • E.g. Lemon juice added to milk causes the milk protein caesinogen to curdle • E.g. Enzyme rennin coagulates milk protein caesinogen in the stomach • Agitation • This is also known as mechanical action • It involves whipping or whisking the protein • This results in the protein chain unfolding & partial coagulation

6. Properties of Protein • Solubility • Proteins are generally insoluble in water • There are two exceptions – egg white in cold water & connective tissue, which is converted to gelatine in hot water • Maillard reaction • Maillard reaction is also known as non-enzymic browning. It occurs when food is roasted, baked or grilled • Amino Acid + Carbohydrates + Dry heat = Brown Colour • Eg. roast potatoes • Elasticity • Certain proteins have an elastic property, e.g. Gluten, in flour, enables bread to rise during cooking • Foam Formation • When egg white is whisked, air bubbles are formed as the protein chains unravel • Whisking also produces heat, which slightly sets the egg white • This foam will collapse after a while, unless it is subjected to heat • This property is used to make meringues

7. Properties of Protein • Gel formation • Collagen, when heated, forms gelatine • Gelatine can absorb large amounts of water and, when heated, forms a sol • On cooling, this becomes solid & a gel is formed • A gel is a semi-solid viscous solution • All gels have a three-dimensional network whereby water becomes trapped. This property is used in making cheesecakes and soufflés Gelatine Heat is applied As the protein Uncoils water becomes trapped Sol Water Protein Matrix – the mixture has set – it has become a gel

8. Properties of protein –7. Effects of Heat

9. Biological Functions of Protein

10. Deamination This is the process by which excess protein is used for energy. Left over amino acids are brought to the liver The NH2 group is broken off, changed to ammonia, then to urea and then excreted. The rest of the molecule is converted to glucose and used for releasing energy.

11. RDA Protein & Energy value RDA • 1gram of protein per kilogram of body weight. • Child 30-50g/day • Teenager 60-80g/day • Adults 50-75g/day • Pregnant or lactating 70-85g/day Energy Value • 1g of protein gives 4kCal of energy

12. Digestion of protein

13. Absorption & Utilisation • Amino Acids are absorbed into blood capillaries in the villi of the small intestine. • These capillaries connect into the portal vein which carries the amino acids to the Liver. • From here the Amino Acids will be sent to (a) replace & repair body cells, (b) form new cells, antibodies, hormones, enzymes or (c) be deaminated

14. Questions? Do these in refill pad, not in note copy 1 What is the elemental composition of protein? 2 Draw the chemical structure of an amino acid 3 Explain how a peptide link forms 4 What are essential amino acids? 5 List the biological functions of protein. 6 What is meant by ‘biological value’ of protein? 7 Difference between denaturation & deamination 8 List (a) the energy value (b) the RDA of protein? 9 List 4 sources of (a) HBV and (b) LBV protein. 10 Describe the digestion of protein in humans.