1. Organic Chemistry Carbohydrate Protein Lipid Nucleic Acid

2. Organic Chemistry Living Organisms are made up of. will contain the elements. All other compounds are inorganic. both inorganic AND organic compounds Carbon (C) and hydrogen (H) Organic compounds Watch Carbon the Element of Life Movie

3. Classes of Organic Compounds Living organisms are made up of four classes of organic compounds.  Example:  Example:  Example:  Example: Carbohydrates Sugar, Starches Lipids Fat and oil Protein meat, cheese Nucleic Acids DNA

4. A. CARBOHYDRATES What are some examples of carbohydrates that you eat/use in your daily life? PastaStarch Sugar Bread Rice Fruit Watch Carbohydrate Facts Movie

5. Glucose: type of sugar in your blood Sucrose: table sugar Starch: Type of carbohydrate found in pasta and rice monosaccharide Disaccharide Polysaccharide

6. What you need to know about carbohydrates: Importance 1. Importance  (short term use)  Source of energy Structure of plant cell wall

7. Carbohydrates: Facts 2. Facts  What does a carbohydrate look like? It is usually a structure.  Anytime you see a name ending in the letters it is a sugar. Examples: and the most important ring OSE sucrose, lactose, maltose glucose

8. Carbohydrates: Facts con’t  Carbohydrates can be huge like or small molecules like. Remember the diffusion lab? Which molecule was able to move across the semi- permeable membrane? STARCH glucose Glucose

9. What you need to know about carbohydrates: Facts  Different combinations of the building blocks ( )make different carbohydrates Examples: glucose + fructose = table sugar ( ) Glucose + galactose = milk sugar ( ) sugar sucrose lactose Watch Simple Carbohydrates Monosaccharides, Disaccharides Movie

10. 3. Carbohydrate: Structure The smallest carbohydrate molecule is a building block called a like Chemical formula for glucose is This can be reduced to ratio of Carbon : Hydrogen : Oxygen ratio of monosaccharide glucose C 6 H 12 O 6 1 :2:1

11. Carbohydrate: Structure 4.Combining monosaccharides If we put two of these together it looks like this: This structure is called a The word “saccharide” means The prefix “mono” means Di means disaccharide one two sugar

12. Disaccarides Common example of disaccharides are:  (table sugar)  (milk sugar)  (malt sugar) Sucrose Lactose Maltose

13. Polysaccharides If we put many of these together it looks like this: This structure is called a The prefix “poly” means polysaccharide many Watch Complex Carbohydrates Polysaccharide Movie

14. Polysaccharide con’t There is no limit to the number of sugars that can be linked together to form a polysaccharide like starch.  Polysaccharides found in plants are  Polysaccharide found in animals is called Starch (stored in roots) and cellulose (cell wall) Glycogen (stored in muscles and liver)

15. Stop and Jot Tell me what you remember about carbohydrates!

16. B. Lipids What are some examples of lipids that you eat/use in your daily life? Butter, oil, lard, estrogen, testosterone Watch Lipids, Cholesterol Movie

17. What you need to know about lipids: Importance What you need to know about lipids: 1. Importance  (long term use)  Source of energy Insulation (heat and electrical) Regulation (hormones) Structure (cell membrane)

18. Lipids: Facts 2. Facts  Lipids are large molecules made up of two different building blocks. One is called (usually 2 -3 of these) and the other is called  Lipids are (they don’t mix) which makes them ideal for the membrane of a cell. fatty acid glycerol NOT SOLUBLE IN WATER

19. Lipids: Facts-con’t  Two basic categories of fats saturated and unsaturated are solids at room temperature are liquids at room temperature SATURATED UNSATURATED

20. Lipid Structure 3.Structure Molecules that make up a fat are a and (usually 3) Fatty Acid glycerol Fatty acid Watch Fatty Acids Movie

21. Saturated fat vs unsaturated fat A saturated fat looks like this A unsaturated fat looks like this

22. Phospholipid A fat in the cell membrane is called a phospholipid and looks like this:

23. Stop and Jot Tell me what you remember about lipids!

24. C. Proteins What are some examples of proteins that you eat/use in your daily life? Meat, eggs, cheese, legumes (beans) Watch An Introduction to Proteins Movie

25. What you need to know about proteins: Importance 1. Importance What do proteins form?  - control reactions in the body (discuss more later)  – defense against disease  – messengers of the body  – locomotion of the body ENZYMES ANTIBODIES HORMONES MUSCLE

26. What you need to know about proteins: Importance  – structure  – transport across (“tunnels”) the membrane  – allow cells to respond to chemical messengers (remember?) HAIR CELL MEMBRANE CELL RECEPTOR MOLECULES

27. Protein Facts 2. Facts:  Proteins are made up building blocks called  The basic structure of all amino acids looks like this: *Note the atom in the molecule. Amino Acids nitrogen (N)

28. Protein Structure 3. Structure Building Block-Amino Acid Amino Group Carboxyl Group Variable Group Watch Proteins and Amino Acids Movie

29. Protein Structure: Amino acid  When two amino acids join together a is formed. This structure is called a The word “peptide” refers to The prefix “di” means  The bond holding amino acids together is called a dipeptide amino acid two peptide bond Watch Peptide Bonds Movie

30. Protein: Polypeptide Many amino acids bonded together form a a polypeptide This structure is called a The word “peptide” refers to amino acid The prefix “poly” means polypeptide many

31. Stop and Jot Tell me what you remember about proteins!

32. Enzymes are a special type of protein that that occur in living things. ENZYMES: Importance controls ALL of the chemical reactions Watch Enzymes Movie

33. ENZYMES: Facts 2. Facts about enzymes Enzymes are A catalysts Enzymes work just like a Enzymes have a and will fit only substance ( ) that it will “work” on. Enzymes are by the reaction so they can be PROTEINS CATALYSTS SPEEDS UP A CHEMICAL REACTION LOCK AND KEY SPECIFIC SHAPE ONESUBSTRATE NOT CHANGED USED OVER AND OVER AGAIN

34. ENZYMES: Facts (Con’t) The is where the enzyme and substrate go together. Enzymes names end in Named for what it works on for example: Lipase works on lipids Protease works on works on sucrose active site ASE protein Sucrase

35. Enzyme- Substrate Complex + SUBSTRATEActive Site ENZYMES: Structure 3.Structure ENZYME Product

36. ENZYMES: Structure Denature NOTE: If the shape of the enzyme is altered, then it and it on the substrate + Enzyme can no longer attach to substrate Active Site ENZYME Active Site altered won’t be able to fitWON’T BE ABLE TO “WORK”

37. Rate of Enzyme Function 4. Factors that affect how fast ( ) the enzymes work. - As temperature increases the rate up to a point (optimum), then it decreases because the protein ( ) Temperature increases the rate DENATURES changes shape

38. Rate of Enzyme Function pH  -(The acid content) Different enzymes work best at different environmental pH values. Recall pH pH

39. Rate of Enzyme Function Concentration  of enzymes and substrates – At the beginning, the rate because there are lots of active sites available (places where the substrate and enzyme join). Eventually, it will because the active sites are full. This is called the Concentration increases flatten out saturation point

40. Stop and Jot Tell me what you remember about enzymes!

41. Nucleic Acid 1. Importance:  Mainly found in the  Involved in controlling activities of the cell  Involved in heredity nucleus of the cell

42. Nucleic Acid: Facts 2. Facts: types of nucleic acid molecules deoxyribonucleic Acid) which makes up (ribonucleic Acid) which is involved in making Two DNA genes RNA protein Watch Chromotin, Chromosomes and DNA Subunits Movie

43. Each nucleotide has Nucleic Acid: Structure 3. Structure  DNA has the shape of a double helix  The building block is Sugar Phosphate Nitrogen base (A,T C G or U) nucleotide

44. Put all the nucleotides together and it looks like this Then the molecule twists forming a helix

45. Nucleic Acid: Structure (Double Helix)  When the nucleotides are bonded together they form a ladder- like structure which is then twisted

46. Can you figure out the pattern? TA CG TA G C G C AT

47. Reactions in Organic Chemistry Dehydration Synthesis When a big molecule is made from smaller molecules (Starch from a bunch of simple sugars) the process is called DEHYDRATION SYNTHESIS Removing waterto make Watch video clip here! Press to start.

48. Reactions in Organic Chemistry Hydrolysis When a big molecule is broken up into the smaller molecules (Protein into amino acids) the process is called HYDROLYSIS WaterSplitting

49. The End!