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Chemistry of Molecules Chapter 3 Organic molecules Organic Molecules always have C and H. O is also present in most organic molecules. Some examples include CH4 = methane, C6H12O6 = Glucose and CH3COOH = Vinegar Is CO2 organic or inorganic? What about H2O? Organic molecules have a core of C and H atoms. Functional groups are small groups of atoms attached to the core – NH2, - COOH, - OH Organic Molecules Organic molecules may have 1 or 2 or many unit structures in them. Monomer = 1 unit, glucose, amino acids Dimer = 2 units – maltose have 2 glucose units and a dipeptide has 2 amino acids. Polymer = many units, Starch has hundreds / thousands of glucose units a protein has hundreds of amino acids and a nucleic acid has thousands to millions of units. Carbohydrates Monosaccharide (mono=one, saccharide=sugar) are sugars formed of single units of C3 to C7. Most common examples are glucose and fructose. These are monomers. C3 = Glycerol, C5 = Ribose and Deoxyribose, C6 = Glucose and Fructose Disaccharide (di=2) and Oligosaccharides (oligo=few). Glucose + Glucose Maltose + H2O Glucose + Glucose Sucrose + H2O Sucrose is commercial sugar Lactose is a disaccharide milk sugar of glucose and galactose. Polysaccharides: Starch, Glycogen, and Cellulose are all polymers of Glucose. Starch is food storage molecule of plants and Glycogen does the same for animals and fungi. Cellulose is a polymer of slightly different glucose is a building material in cell walls. Cellulose is the most abundant organic molecule in biosphere. Lipids or Fats All lipids are Hydrophobic (hydro=water, phobic=repulsion). These are compounds of C,H and O. True fats are formed of a molecule of Glyecrol a 3C alcohol and 3 long chain fatty acids called triglycerides. Fats are solid at room temp and are rich in saturated fatty acids. Oils are liquids at room temp and are rich in unsaturated fatty acids. Phospholipids are special lipids in which phosphate replaces one of the 3 fatty acids in fat molecule. They have ionic part usually an amine attached to phosphate. 2 long chains of fatty acids are attached to glycerol. Ionic part is Hydrophilic (philic=loving) and fatty acid tails are Hydrophobic. This dual nature helps them create and maintain Cell membranes. Steroids are lipids formed of 4 fused rings. Most common examples include Cholesterol present in blood and attached to membranes. Steroid hormones include sex-hormones and adrenal-hormones. Proteins Proteins are polymers of 20 kinds of Amino Acids. Glycine, Alanine, Lysine and Methionine are some examples. Each amino acid has a carboxylic (acidic) group and an amino group. Carboxylic group of one amino acid joins with the amino group of second amino acid to form a covalent bond called a Peptide bond. Many amino acids join together with peptide bonds to form a Polypeptide. A polypeptide has only primary structure a fixed # of amino acids with a specific arrangement. A polypeptide undergoes regular coiling to form a Secondary Structure which mostly undergoes a 3dimensional unique irregular coiling resulting in a structure. Most proteins are globular and have a tertiary structure. Most fibrous proteins have a secondary structure. Nucleic Acids DNA and RNA Nucleic Acid: are acidic substances found in nucleus of cells. 2 basic types: DNA = Deoxyribose N.A. and RNA = ribose N.A. Nucleic acids are polymers of units called Nucleotides. Each nucleotide is formed of: a) a pentose sugar Ribose or Deoxyribose b) a Phosphate c) one of 4 Nbases, both have 3 common bases Adenine, Guanine and Cytosine. In DNA Adenine always bonds to Thymine and Cytosine to Guanine. A-T and C-G are called Complementary bases. 1. 2. 3. 4. 5. DNA Sugar is Deoxyribose N-bases include Thymine Genetic material Double Helix Most lies in nucleus 1. 2. 3. 4. 5. RNA Sugar is Ribose N-bases include Uracil Executes protein synthesis Single chain may be coiled Most lies in cytoplasm DNA Structure DNA is a ladder like molecule formed of 2 antiparallel chains. The main chain is formed of alternating Deoxyribose and Phosphate molecules. The side chains are formed of N-bases of opposite chains held together by H-bonds. The 2 chains are twisted around each other resulting in a Double Helical Structure. ATP the Energy Currency of Cells ATP: Adenosine Triphosphate is a nucleotide formed of 5 molecules. Ribose a pentose (5C) sugar Adenine a N-base formed of 2 fused rings (purine) 3 Phosphates that is why a Triphosphate. It can lose 3rd phosphate to become ADP + Pi and releases energy used in most cell functions. Adenine + Ribose = Adenosine