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Transcript
Proteins Proteins are compounds that contain Nitrogen in addition to C, H, and O. Consist of one or more chains of amino acids. Amino Acids Structural unit of protein Contains: 1. A carboxyl group (COOH) 2. An amino acid group (NH2) – amine 3. A single H atom 4. A side chain which is different in each amino acid - R 20 different amino acids are found as part of proteins (8 amino acids are essential because they cannot be made by people) The 20 amino acids can be linked together in any sequence whatsoever, and in chains of varying lengths. This explains why there are so many proteins. A chain of amino acids is called a polypeptide. All proteins are made up of one or more polypeptide chains. Seven Classes of Proteins based on Function 1. Enzymes - (biological catalysts) which enable complex chemicals; reactions to take place with precision and speed 2. Structural Proteins – form parts of the body of an organism such as hair, nails, and the tough materials of cartilage and connective tissue. 3. Signal Proteins – Hormones are the chemical messengers that regulate body functions in plants and animals. 4. Contractile Proteins – are involved in movement. Actin and myosin are proteins that enable muscles to contract. 5. Storage Proteins – e.g. albumin / ovalbumin - the protein store that forms the white of eggs. 6. Defensive Proteins – Antibodies, which protect animals bodies against foreign substances and disease organisms. 7. Transport Proteins – E.g. hemoglobin, the carrier of oxygen in the blood Shapes of Proteins Protein shapes are broadly categorized into two categories: fibrous or globular. Fibrous proteins have elongated shapes, tend to be insoluble in water and physically tough, e.g. keratin, collagen Globular proteins tend to be compact and rounded and they are water soluble. Enzymes and antibodies are globular proteins. Peptide Bond The bond formed between two amino acids by dehydration synthesis, (the amino group of one amino acid and the carboxyl group of the adjacent amino acid). 4 levels of structure in a protein 1. 2. Primary structure - sequence of amino acids that are organized in a linear arrangement. Secondary structure - Hydrogen bonds between amino acids causes the protein to arrange in helical coils or in pleated sheets. 3. Tertiary Structure - 3D shape is formed when the R groups interact, folding the polypeptide in 3 dimensions and forming a unique shape. The bonds holding the tertiary structure together can only form if the amino acids are in the correct order. 4. Quaternary structure. More than one polypeptide chain chemically bonds to each other. E.g. hemoglobin has 4 polypeptide chains. Denaturation is a change in 3D shape of a protein caused by changes in temperature, pH, ionic concentration or etc. Readings: P. 35 - 49
