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Chapter 2 BioMOlecules

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Title: Chapter 6, Section 3 - Biomolecules Notes Author: Megan Marshall Last modified by: jdowd Created Date: 10/2/2006 11:56:31 PM Document presentation format – PowerPoint PPT presentation

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Title: Chapter 2 BioMOlecules


1
Chapter 2 BioMOlecules
2
Carbon compounds
  • A. Organic Compounds compounds containing
    carbon atoms that are covalently bonded to other
    carbon atoms and other elements such as oxygen
    hydrogen and nitrogen.
  • 1. Carbon forms bonds easily because it has 4
    valence electrons.
  • 2. Carbon atoms can bond to other carbon
    atoms, forming chains that are almost unlimited
    in length.
  • 3. All living things contain carbon (C),
    hydrogen (H), oxygen (O), nitrogen (N), and
    phosphorous (P).

3
Carbon compounds
  • B. Attack of the Macromolecules! (Giant
    Molecules)
  • 1. Monomers simple molecules created when C,
    H, O, N, P bond together.
  • 2. Polymer large compounds formed by joining
    monomers together.

4
Carbon compounds
  • a. The process of making a polymer is called
    Polymerization.

5
Carbon compounds
  • 3. Some polymers are also called biomolecules
    or macromolecules.
  • a. Carbohydrates
  • b. Lipids
  • c. Proteins
  • d. Nucleic Acids

http//www.brainpop.com/health/bodysystems/bodyche
mistry/
6
Carbohydrates
  • A. Carbohydrates (made of Carbon, Hydrogen, and
    Oxygen, in a 121 ratio)
  • 1. Commonly called sugars and starches.
  • 2. Monomers (subunits) are monosaccharides,
    also known as simple sugars.
  • a. Monosaccharides 1 sugar
  • b. Example of Monosaccharide glucose,
    fructose, galactose

7
Carbohydrates
  • c. Disaccharides 2 monosaccharides joined
  • d. Example of Disaccharide sucrose glucose
    and fructose joined
  • e. Example of Disaccharide maltose glucose
    and glucose joined

8
Carbohydrates
  • f. Polysaccharides many monosaccharides
    joined
  • g. Example of Polysaccharide glycogen
    stores excess sugar in animals
  • h. Example of Polysaccharide cellulose
    makes rigid plant cell walls

9
Carbohydrates
  • 3. Functions
  • a. Store and release quick energy
  • b. Provide structural support
  • Example Exoskeletons of insects
  • 4. Food examples
  • a. Bread, Potatoes, Beans, Pasta, Cereal,
    Fruit

10
Lipids
  • B. Lipids (made of Carbon, Hydrogen, Oxygen
    large non-polar molecules that DONT dissolve in
    water)
  • 1. Commonly called fats, oils, steroids, and
    waxes
  • 2. Monomers (subunits) are glycerol
    (hydrophilic head) with fatty acid chains
    (hydrophobic tail)

Glycerol
Fatty Acid
11
Lipids
  • a. Triglycerides 3 fatty acids joined to
    glycerol (alcohol with a carboxyl group
    COOH)

12
Lipids
  • b. Phospholipids 2 fatty acids joined to
    glycerol (alcohol with carboxyl group COOH)
  • - Example cell membrane (barrier between
    inside and outside of cell)

13
Lipids
  • c. Waxes many fatty acids joined to
    glycerol (alcohol)
  • - Example earwax, surface of some plant
    leaves

14
Lipids
  • 3. Functions
  • a. Store long-term energy
  • b. Insulation
  • c. Make up cell membranes
  • 4. Food examples
  • a. Oil, Butter, Steak, Bacon

http//www.brainpop.com/health/nutrition/fats
15
Proteins
  • C. Proteins (made of Carbon, Hydrogen, Oxygen,
    and Nitrogen)
  • 1. Monomers (subunits) are amino acids only 20
    different amino acids exist.
  • a. Structure of an amino acid
  • - Amino Group (end)
  • - Carboxyl Group (end)
  • - R- Group (middle) changes

Tryptophan
Serine
Leucine
16
Proteins
  • b. Dipeptides 2 amino acids joined by a
    peptide bond
  • c. Polypeptides many amino acids joined by
    a peptide bond

17
Proteins
  • 2. Functions
  • a. Transport oxygen to blood stream
    (hemoglobin)
  • b. Provide immunity (antibodies)
  • c. Muscle Contractions
  • d. Speed up chemical reactions (enzymes)

http//www.youtube.com/watch?vJnlULOjUhSQ
18
Proteins
  • 3. Food examples
  • a. Fish, Meat, Peanut Butter,
  • Milk, Rice

19
Proteins
  • 4. Other Protein Examples
  • a. An enzyme is a protein acting as a
    biological catalyst.
  • b. Catalyst special proteins that speed up
    chemical reactions by lowering the activation
    energy needed to start the reaction.
  • - Lowering the activation energy allows
    cells to do work more efficiently, because
    it requires less energy to do its work.
  • - If the cell requires less energy, it can
    react more rapidly, therefore, enzymes
    help to increase the rate of reaction.

20
Enzymes
  • c. Enzyme names end in - ase.
  • Examples Catalase, Sucrase, Lactase
  • d. Characteristics of an Enzyme
  • - Enzymes act on specific substrates.
  • - Substrate substance that the enzyme
    breaks down
  • - Each substrate fits in to the active
    site of the enzyme. (Like a lock key.)

21
Enzymes
  • - Active Site region where enzyme and
    substrate bind together
  • - Product the substrate broken down
    after the enzyme has acted on it
  • - ENZYMES ARE NOT CHANGED OR USED IN THE
    REACTION!
  • - Enzymes go on to carry out the same
    reactions again and again.

22
Enzymes
  • - Denature when an enzyme changes shape
    due to a change in temp., pH, or other
    factor preventing binding

http//bcs.whfreeman.com/thelifewire/content/chp06
/0602001.html
23
Nucleic Acids
  • D. Nucleic Acids (made of Carbon, Hydrogen,
    Oxygen, Nitrogen, Phosphorous)
  • 1. Monomer (subunits) are called nucleotides.
  • a. Made up of a 5-carbon sugar, phosphate,
    and nitrogen base.

24
Nucleic Acids
  • 2. Function
  • a. Store genetic information in cells
  • 3. Examples
  • a. DNA and RNA
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