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Chemistry of Cells

Chemistry of Cells. Organic Molecules. Has nothing to do with being naturally occurring!!. Propane. Ethane. Length. Carbon skeletons vary in length. These are hydrocarbons. Isobutane. Butane. Branching. Skeletons may be unbranched or branched. 2-Butene. 1-Butene. Double bonds.

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Chemistry of Cells

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  1. Chemistry of Cells

  2. Organic Molecules Has nothing to do with being naturally occurring!!

  3. Propane Ethane Length. Carbon skeletons vary in length. These are hydrocarbons Isobutane Butane Branching. Skeletons may be unbranched or branched. 2-Butene 1-Butene Double bonds. Skeletons may have double bonds, which can vary in location. Cyclohexane Benzene Skeletons may be arranged in rings. Rings.

  4. BioChemistry Study molecules important to life 4 Main Groups Proteins Carbohydrates Nucleic acids Lipids

  5. Carbohydrates What elements do they contain?????? Carbon, Hydrogen, and Oxygen

  6. Types of Carbohydrates 1) Monosaccharides (Simple sugars) Examples: -glucose BLOOD SUGAR -fructose FOUND IN FRUITS -Ribose found in RNA Function energy (readily available)

  7. Glucose Structure: Elements? Shape?

  8. Dehydration reaction -build larger molecules (polymers) by adding additional subunits (monomers)

  9. Hydrolysis reaction -breaks the polymer down by adding water

  10. Disaccharides Structure: formed from the joining of two monosaccharides • Examples: • Sucrose • Lactose • Maltose • Functions - Energy Maltose

  11. Polysaccharides General Structure: Many monosaccharides linked together Examples: Cellulose Monomer = glucose Function: structural component of cell walls

  12. Polysaccharides • Starch • Made of glucose monomers • Found in plants • Energy storage for plants

  13. Glycogen • Glucose monomers • How animals store glucose • In liver and muscles

  14. STARCH Glucose monomer Starch granules in potato tuber cells Fig. 3-7 Glycogen granules in muscle tissue GLYCOGEN CELLULOSE Cellulose fibrils in a plant cell wall Hydrogen bonds Cellulose molecules

  15. Chitin • Found in the exoskeletons of arthropods • Function????

  16. Proteinsstructure • Are polymers • Made from chains of amino acids • Linked by peptide bonds • Those bonds form through dehydration reaction

  17. Structure of an amino acid Fig. 3-12a AmiNo group Carboxyl group

  18. Fig. 3-12c-1 Carboxyl group Amino group Amino acid Amino acid

  19. Build the polypeptide (protein) by dehydration reactions connecting the carboxyl group of one amino acid to the amino group of the other amino acid. Fig. 3-12c-2 Peptide bond Carboxyl group Amino group Dehydration reaction Dipeptide Amino acid Amino acid

  20. Different amino acids have different properties. Help to determine the overall shape of the protein Fig. 3-12b Leucine (Leu) Aspartic acid (Asp) Serine (Ser) Hydrophobic Hydrophilic

  21. Functions Movement  in muscles Structural proteins collagen, keratin, cell skeleton Defense  antibodies Transport  cell membrane transport protein, hemoglobin Regulation  hormones (insulin) communication  receptor proteins on nerve cell membranes enzymes  molecules that accelerate chemical reactions Storage  ovalbumin

  22. Hemoglobin

  23. Insulin collagen

  24. actin myosin

  25. Nucleic Acids • Are polymers made of linked nucleotides • Examples are DNA and RNA

  26. Fig. 3-8a

  27. Lipids Include fats, phospholipids, and steroids • Diverse group of hydrophobic molecules General structure of a fat

  28. 3 fatty acid chains

  29. Built by dehydration reactions Glycerol Fig. 3-8b Fatty acid

  30. Fatty acids (and the fats that contain them) can be saturated or unsaturated Saturated with hydrogens

  31. Functions of fats • Energy • Cushion • insulation

  32. Phospholipids Structure: • Similar to fats, but a fatty acid is replaced by a phosphate group Function • Are a major component of plasma membranes

  33. testosterone steroids estrogen 4 fused rings progesterone cholesterol

  34. BioChemistry Study molecules important to life 4 Main Groups Proteins Carbohydrates Nucleic acids Lipids

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