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Transcript
2.5 Carbohydrates 2.5 Carbohydrates • Some Functions: – Quick fuel – Short-term energy storage – Structure of organisms – Cell to cell recognition 2.5 Carbohydrates • Simple Carbohydrates 2.5 Carbohydrates • Simple Carbohydrates – Monosaccharides are sugars with 3 - 7 carbon atoms 2.5 Carbohydrates • Simple Carbohydrates – Monosaccharides are sugars with 3 - 7 carbon atoms – Pentose refers to a 5-carbon sugar – Hexose refers to a 6-carbon sugar 2.5 Carbohydrates Three ways to represent the structure of glucose. 2.5 Carbohydrates • Disaccharides contain two monosaccharides. 2.5 Carbohydrates • Polysaccharides are long polymers that contain many glucose subunits. 2.5 Carbohydrates • Polysaccharides are long polymers that contain many glucose subunits. – Starch is the storage form of glucose in plants. 2.5 Carbohydrates • Polysaccharides are long polymers that contain many glucose subunits. – Starch is the storage form of glucose in plants. – Glycogen is the storage form of glucose in animals. 2.5 Carbohydrates • Polysaccharides are long polymers that contain many glucose subunits. – Starch is the storage form of glucose in plants. – Glycogen is the storage form of glucose in animals. – Cellulose can be found in the cell walls of plants. 2.5 Carbohydrates 2.6 Lipids 2.6 Lipids • Some Functions: – Energy Storage – Found in the plasma membrane – Component of steroid hormones Lipids do not dissolve in water 2.6 Lipids • Some Functions: – Energy Storage – Found in the plasma membrane – Component of steroid hormones Lipids do not dissolve in water Lipids are electrically neutral 2.6 Lipids • Fats and Oils 2.6 Lipids • Fats and Oils – Fats • Usually of animal origin • Solid at room temperature 2.6 Lipids • Fats and Oils – Fats • Usually of animal origin • Solid at room temperature 2.6 Lipids • Fats and Oils – Fats • Usually of animal origin • Solid at room temperature – Oils • Usually of plant origin • Liquid at room temperature 2.6 Lipids • Functions of Fats 2.6 Lipids • Functions of Fats – Long-term energy storage – Insulation against heat loss – Protection of major organs 2.6 Lipids Synthesis and degradation of a fat molecule 2.6 Lipids Emulsification 2.6 Lipids • Saturated and Unsaturated Fatty Acids 2.6 Lipids • Saturated and Unsaturated Fatty Acids – Fatty acids are hydrocarbon chains that end with -COOH. 2.6 Lipids • Saturated and Unsaturated Fatty Acids – Fatty acids are hydrocarbon chains that end with -COOH. • Saturated fatty acids: No double covalent bonds between carbon atoms • Unsaturated fatty acids: Double bonds between carbon atoms 2.6 Lipids Saturated Fatty Acid Unsaturated Fatty Acid 2.6 Lipids • Phospholipids 2.6 Lipids • Phospholipids – Comprised of 2 fatty acids + a phosphate group – Primary components of cellular membranes 2.6 Lipids 2.6 Lipids • Steroids 2.6 Lipids • Steroids – All steroids have four adjacent rings. 2.6 Lipids • Steroids – All steroids have four adjacent rings. – Examples: Cholesterol Testosterone Estrogen 2.6 Lipids 2.7 Proteins • Proteins have important functions in cells. – Proteins such as keratin and collagen have structural roles. – Proteins are also enzymes that speed up the chemical reactions of metabolism. – Proteins such as hemoglobin are responsible for the transport of substances within the body. – Proteins also transport substances across cell membranes. 2.7 Proteins • Proteins have important functions in cells. – Proteins form the antibodies of the immune system that defend the body from disease. – Proteins such as insulin are hormones that regulate cellular function. – Contractile proteins such as actin and myosin allow parts of cells to move and muscles to contract. 2.7 Proteins • Proteins are comprised of amino acids. 2.7 Proteins • Amino acids – Amino group (-NH2) – Acidic group (-COOH) – R group (remainder) 2.7 Proteins 2.7 Proteins • Peptides – A polypeptide is a single chain of amino acids. – A peptide bond joins two amino acids. 2.7 Proteins 2.7 Proteins • Levels of Protein Organization – The structure of a protein has three or four levels of organization. – The final shape of a protein is very important to its function. 2.7 Proteins 2.7 Proteins 2.7 Proteins 2.8 Nucleic Acids • DNA (deoxyribonucleic acid) 2.8 Nucleic Acids • DNA (deoxyribonucleic acid) • RNA (ribonucleic acid) 2.8 Nucleic Acids • DNA stores genetic information. • DNA codes for the order of amino acids in a protein. • RNA is an intermediary in the sequencing of amino acids into a protein. 2.8 Nucleic Acids • Components of a nucleotide – Phosphate – Pentose sugar – Nitrogen-containing base 2.8 Nucleic Acids DNA Structure 2.8 Nucleic Acids 2.8 Nucleic Acids • ATP (Adenosine Triphosphate) 2.8 Nucleic Acids • ATP (Adenosine Triphosphate) – A high energy molecule – ATP undergoes hydrolysis and energy is released 2.8 Nucleic Acids
