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The Chemical Basis of Life

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Title: The Chemical Basis of Life


1
The Chemical Basis of Life
2
Organic Compounds
  • Compounds containing carbon
  • (Actually contain carbon, hydrogen, and oxygen)
  • Compounds that come from living things

3
Q1)Give two examples of organic compounds?
  • Sugar, Starch

4
Inorganic compounds
  • Dont contain carbon
  • Dont come from living things
  • Exceptions Carbon dioxide, Carbon monoxide

5
Q2) Give 2 examples of inorganic molecules
  • Water, Salt

6
Unique bonding properties of carbon
  • Carbon has four electrons in its outer shell
  • Carbon can form 4 covalent bonds
  • Carbon can form complex molecules because of its
    ability to form 4 bonds at the same time

7
Chemistry of carbon
  • Carbon can form
  • Single covalent bonds
  • Shares 1 electron with one other atom.
  • Double covalent bonds
  • Shares 2 electrons with one other atom
  • Triple covalent bonds (rare)
  • Shares 3 electrons with one other atom(See
    examples of these bonds on the bottom of page 49)

8
Functional groups
  • Common parts used molecule building
  • Hydroxyl
  • -OH
  • Carboxyl
  • -COOH
  • Amino
  • -NH2

9
Monomers
  • Simple building block molecules

10
Polymers
  • Two or more monomers covalently bonded together.
  • Can be two or two thousand
  • Allow very large molecules to built with only a
    few basic parts.

11
Two chemical reactions used
  • Dehydration Synthesis
  • Covalent bond is formed by the removal of water.
  • Two monomers become joined together.

12
Dehydration Synthesis Reaction
13
Two Chemical Reactions Used
  • Hydrolysis
  • Separation of two monomers by adding water and
    breaking the covalent bond

14
Hydrolysis Reaction
15
Carbohydrates
  • Made from glucose molecules (sugars)
  • Carbohydrates are used by living things as a
    source of energy.

16
Monosaccharides
  • Simple sugars
  • Mono one Saccharide sugar
  • Have the formula C6H12O6
  • Form rings when in water

17
Some Sample Monosaccharides
18
Q2) Where do people get glucose molecules?
  • Plants produce glucose during photosynthesis and
    animals get glucose by eating plants.

19
Disaccharides
  • Di Two Saccharide sugar

20
Polysaccharides
  • Two or more monosaccharides joined together by a
    covalent bond.
  • The bond forms by a Dehydration Synthesis
    Reaction.

21
Four types of polysaccharides Made of Glucose
22
Starch
  • Energy storage in plants

23
Glycogen
  • Energy storage in plant seeds and short term
    energy storage in animals (1 day)

24
Cellulose
  • Structural support in plants

25
Starch Vs. Cellulose
  • STARCH
  • CELLULOSE

26
Chitin
  • Used in insect exoskeletons for structural
    support
  • Harvested and used as surgical stitches

27
Lipids
  • Fats
  • Oils
  • Waxes
  • Do not dissolve in water!!!

28
Molecules made from lipids
  • Fats
  • Energy storage in animals and plant seeds
  • A gram of fat stores more than twice as much
    energy as a gram of a polysaccharide.

29
Phospholipids
  • Used in cell membranes
  • Separations between inside and outside of cell

30
Waxes
  • Water proof molecules, many uses
  • Example Waxy coating on leaves prevents water
    loss

31
Chemistry of Fats
  • Glycerol 
  • 3 fatty acids
  • Chains of carbons with a carboxyl (acid) group at
    one end of each fatty acid

32
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33
Two major types of fats
  • Saturated fats single bonds between carbon
    atoms
  • Unsaturated fats double bonds between carbon
    atoms

34
Q3) Which type of fat is unhealthy?
  • Saturated fats

35
What is the difference between fats and oils?
  • Fats are solid at room temperature and oils are
    liquids at room temperature.

36
Proteins
  • The molecules that do the work inside of the
    cell.
  • Proteins are responsible for most of what happens
    inside of the cell.

37
Functions of a protein
  • Movement
  • Structural support  
  • Storage
  • Defense
  • Regulation of chemical processes

38
What are two examples of things made of protein?
  • Enzymes (thousands of different types)
  • Speed up chemical reactions
  • Hemoglobin
  • Used in red blood cells to transport oxygen

39
Structure of protein
  • Amino acid
  • The monomer of proteins
  • There are 20 different amino acids
  • They can make billions of different proteins

40
Peptide Bond
  • Holds these monomers together.
  • Formed by a dehydration synthesis reaction

41
Polypeptides
  • Many amino acids bonded together making a long
    chain

42
How proteins are formed
  • Proteins are complexly folded polypeptide chains
  • There are four levels of protein structure
  • Each level of folding makes the protein more
    complex.

43
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44
One change can be devastating
45
Stop for today.
46
The function of enzymes
  • Enzymes are Protein Catalysts
  • Increase the speed of chemical reactions without
    being used up themselves.
  • NOT CHANGED BY REACTION
  •  

47
Substrates
  • The molecule that binds to the enzyme
  • These are the ones changed in the reaction

48
Enzyme-substrate complex 
  • Active site
  • The space where the substrate fits
  • Lock and key
  • Each enzyme is specific for one substrate!! 

49
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50
Activation Energy
  • Energy needed to get a reaction started.

Bonds are weakened by activation energy
New bonds form to make products
51
Activation Energy
  • Enzymes lower a reactions activation energy
  • A lower activation energy makes a reaction happen
    faster

52
Enzymes
  • Catalysts in the body are enzymes
  • Enzymes work best at a certain temperature and pH

53
If the temperature or pH changes, the enzyme may
not function.
  • If the bonds that hold the enzymes shape are
    changed, the enzyme will come apart.
  • If this happens, the enzyme will denature.

54
Nucleic Acids
  • Polymers which are used to store genetic
    information 

55
Nucleotide
  • Monomer of nucleic acids
  • Made from
  • 1 sugar
  • 1 base
  • 1 phosphate

56
 
57
Two types of nucleic acids and their uses
  • Deoxyribonucleic Acid
  • DNA
  • Stores genetic information and passes it on to
    the next generation
  • Ribonucleic Acid
  • RNA
  • Takes information and uses it to make proteins

58
The information is stored in bases
  • The differences in the nucleotides is in the
    bases.
  • The order of these bases makes up the genetic
    CODE.

59
DNA Bases
  • There are four bases used in DNACytosine (C),
    Thymine (T)Adenine (A), Guanine (G)

60
RNA Bases
  • There are four bases used in RNA
  • Cytosine (C), Uracil (U)
  • Adenine (A), Guanine (G)

Thymine is replaced by Uracil in RNA
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