1 / 64

uses of organic molecules

2. Uses of Organic Molecules. A typical cell in your body has about 2 meters of DNA. A typical cow produces over 200 pounds of methane gas each year. 3. Water. About 60-90 percent of an organism is water. Water is used in most reactions in the body. Water is called the universal solvent. 4. Water Properties.

Gabriel
Download Presentation

uses of organic molecules

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

    1. 1 Uses of Organic Molecules Americans consume an average of 140 pounds of sugar per person per year

    2. 2 Uses of Organic Molecules A typical cell in your body has about 2 meters of DNA

    3. 3 Water About 60-90 percent of an organism is water

    4. 4 Water Properties Polarity

    5. 5 Carbon-based Molecules Although a cell is mostly water, the rest of the cell consists mostly of carbon-based molecules

    6. 6 Carbon is a Versatile Atom It has four electrons in an outer shell that holds eight

    7. 7 Hydrocarbons The simplest carbon compounds …

    8. 8 Carbon can use its bonds to:: Attach to other carbons

    9. 9 Large Hydrocarbons: Are the main molecules in the gasoline we burn in our cars

    10. 10 Shape of Organic Molecules Each type of organic molecule has a unique three-dimensional shape

    11. 11 Functional Groups are: Groups of atoms that give properties to the compounds to which they attach

    12. 12 Common Functional Groups

    13. 13 Giant Molecules - Polymers Large molecules are called polymers

    14. 14 Examples of Polymers Proteins

    15. 15 Most Macromolecules are Polymers Polymers are made by stringing together many smaller molecules called monomers

    16. 16 Linking Monomers

    17. 17 Breaking Down Polymers Cells break down macromolecules by a process called hydrolysis (adding a molecule of water)

    18. 18 Macromolecules in Organisms There are four categories of large molecules in cells:

    19. 19 Carbohydrates Carbohydrates include: Small sugar molecules in soft drinks Long starch molecules in pasta and potatoes

    20. 20 Monosaccharides: Called simple sugars

    21. 21 Monosaccharides Glucose is found in sports drinks

    22. 22 Isomers Glucose & fructose are isomers because they’re structures are different, but their chemical formulas are the same

    23. 23 Rings In aqueous (watery) solutions, monosaccharides form ring structures

    24. 24 Cellular Fuel Monosaccharides are the main fuel that cells use for cellular work

    25. 25 Disaccharides A disaccharide is a double sugar

    26. 26 Disaccharides Common disaccharides include: Sucrose (table sugar) Lactose (Milk Sugar) Maltose (Grain sugar)

    27. 27 Disaccharides Sucrose is composed of glucose + fructose

    28. 28 Polysaccharides Complex carbohydrates

    29. 29 Examples of Polysaccharides

    30. 30 Starch Starch is an example of a polysaccharide in plants

    31. 31 Glycogen Glycogen is an example of a polysaccharide in animals

    32. 32 Cellulose Cellulose is the most abundant organic compound on Earth

    33. 33 Cellulose

    34. 34 Dietary Cellulose Most animals cannot derive nutrition from fiber

    35. 35 Sugars in Water Simple sugars and double sugars dissolve readily in water

    36. 36 Lipids Lipids are hydrophobic –”water fearing”

    37. 37 Function of Lipids Fats store energy, help to insulate the body, and cushion and protect organs

    38. 38 Types of Fatty Acids Unsaturated fatty acids have less than the maximum number of hydrogens bonded to the carbons (a double bond between carbons)

    39. 39 Types of Fatty Acids

    40. 40 Triglyceride Monomer of lipids

    41. 41 Triglyceride

    42. 42 Fats in Organisms Most animal fats have a high proportion of saturated fatty acids & exist as solids at room temperature (butter, margarine, shortening)

    43. 43 Fats in Organisms Most plant oils tend to be low in saturated fatty acids & exist as liquids at room temperature (oils)

    44. 44 Fats Dietary fat consists largely of the molecule triglyceride composed of glycerol and three fatty acid chains

    45. 45 Steroids The carbon skeleton of steroids is bent to form 4 fused rings

    46. 46 Synthetic Anabolic Steroids They are variants of testosterone

    47. 47 Proteins Proteins are polymers made of monomers called amino acids

    48. 48 Four Types of Proteins

    49. 49 Linking Amino Acids Cells link amino acids together to make proteins

    50. 50 Proteins as Enzymes Many proteins act as biological catalysts or enzymes

    51. 51 Enzymes

    52. 52 Enzyme + Substrate = Product

    53. 53 How the Enzyme Works

    54. 54 Primary Protein Structure

    55. 55 Protein Structures Secondary protein structures occur when protein chains coil or fold

    56. 56 Protein Structures

    57. 57 Denaturating Proteins

    58. 58 Changing Amino Acid Sequence

    59. 59 Nucleic Acids Store hereditary information

    60. 60 Nucleic Acids

    61. 61 Bases Each DNA nucleotide has one of the following bases:

    62. 62 Nucleotide Monomers Form long chains called DNA

    63. 63 DNA Two strands of DNA join together to form a double helix

    64. 64 RNA – Ribonucleic Acid Ribose sugar has an extra –OH or hydroxyl group

More Related