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Biochemistry

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Title: Macromolecules Author: Cheryl Massengale Last modified by: Kristen Zuck Created Date: 7/31/2005 12:47:49 AM Document presentation format: On-screen Show (4:3) – PowerPoint PPT presentation

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Title: Biochemistry


1
Chapter 2.3 2.5
  • Biochemistry

2
Organic vs. Inorganic
  • All compounds may be classified into two broad
    categories
  • organic compounds - carbon based molecules
  • inorganic compounds - almost all are non-carbon
    based molecules

3
Carbon (C)
  • Carbon has 4 electrons in outer shell.
  • Carbon can form covalent bonds with as many as 4
    other atoms (elements).
  • Usually with C, H, O or N.
  • Example CH4(methane)

4
Carbon Bonding
  • Carbon can also bond with other carbon atoms
  • Forms three types of skeletal structures
  • Straight chains
  • Branched chains
  • Rings

5
Carbon bonding
  • Carbon can share one, two or three electrons with
    another atom
  • single bond - one electron shared
  • double bond - two electrons shared
  • triple bond - three electrons shared

6
Macromolecules
  • FOUR MAIN CATEGORIES
  • 1) carbohydrates fuel building material
  • 2) lipids fats oils
  • 3) proteins perform most cell functions
  • 4) nucleic acids information storage (Chap.
    11)

7
Carbohydrates
8
Carbohydrates
  • Carbohydrates are made of sugar molecules
  • Sugars contain carbon, hydrogen, and oxygen in
    the following ratio
  • 1 carbon 2 hydrogen 1 oxygen

9
3 main types of carbohydrates
  • Monosaccharide one sugar unit
  • Ex glucose, fructose, galactose
  • Disaccharide two sugar units
  • Ex Sucrose (glucose fructose)
  • Ex Maltose (glucose glucose)
  • Ex Lactose (glucose galactose)

10
3 Main types of Carbohydrates
  • Polysaccharide many sugar units
  • Ex starch found in plants (rice, potatoes)
  • Ex Glycogen found in animal cells
  • Ex Cellulose found in cell walls

11
Carbohydrates
  • Most carbohydrates are polar and hydrophilic
  • Hydrophilic attracted to water molecules
  • Monosaccharides and disaccharides easily dissolve
    in water to form sugar solutions

12
Glucose
13
Fructose
14
Galactose
15
Macromolecules
  • Large organic molecules.
  • Also called POLYMERS.
  • Made up of smaller building blocks called
    MONOMERS.

16
How Are Macromolecules Formed?
17
Answer Dehydration Synthesis
  • removing water

18
Maltose
  • Glucose Glucose

19
Lactose
  • Glucose Galactose

20
Sucrose
  • Glucose Fructose

21
How are Macromolecules separated or digested?
22
Answer Hydrolysis
  • Separates monomers by adding water

23
Hydrolysis
24
Lipids
25
Lipids
  • Lipids are not soluble in water.
  • They are nonpolar and hydrophobic? do not mix
    with water
  • Lipids store the most energy
  • Examples
  • Fats, oils
  • Phospholipids
  • Steroid hormones
  • Triglycerides

26
Lipids
  • Six functions of lipids
  • 1. Long term energy storage
  • 2. Protection against heat loss (insulation)
  • 3. Protection against physical shock
  • 4. Protection against water loss
  • 5. Chemical messengers (hormones)
  • 6. Major component of membranes (phospholipids)

27
Simplest Fats
  • Triglycerides
  • composed of 1 glycerol and 3 fatty acids.

28
Fatty Acids
  • There are two kinds of fatty acids
  • 1. Saturated fatty acids no double bonds (bad)
  • solid at room temperature, Ex butter
  • 2. Unsaturated fatty acids at least 1 double
    bonds (good)
  • liquid at room temperature, Ex Fruits, olive
    oil

29
Steroids
  • Classified as lipids ? are hydrophobic
  • Differ from fats in structure function
  • Some act as chemical signals or hormones ?
    estrogen and testosterone

30
Proteins
31
Functions of Proteins
  • Form structureshair, fur, muscles
  • Provide long-term nutrient storage
  • Circulate and defend the body against
    microorganisms (antibodies)
  • Act as chemical signalshormones
  • Help control chemical reactions in cellsenzymes

32
Protein Structure
  • Proteins are polymers formed from monomers called
    amino acids.
  • Amino acids bonded together by peptide bonds
    (polypeptides).
  • There are 20 different kinds of amino acids.

33
Amino Acid Structure
  • Three of central carbons partners are the same
    in all of the 20 different amino acids
  • 1. hydrogen atom
  • 2. carboxyl group
  • 3. amino group

34
Amino Acid Structure
  • Differences between one amino acid and another
    are due to the unique R group or side group
    that each one has
  • Each R group is responsible for a different
    chemical property for each amino acid

35
Protein Shape
  • Functional proteins consist of precisely twisted,
    coiled, and shaped polypeptides
  • Proteins cannot function correctly if shape is
    altered
  • Denaturation loss of normal protein shape
  • Unfavorable changes in temperature, pH, or other
    environmental conditions may cause proteins to
    become denatured

36
Enzymes are proteins that speed up specific
reactions in cells
37
Activation Energy
  • Activation energy minimum energy required to
    start chemical reaction
  • Catalysts compounds that speed up chemical
    reactions
  • Enzymes proteins that act as catalysts for
    chemical reactions in organisms

38
How Enzymes Work
  • ACTIVE SITE MODEL
  • Substrate specific reactant acted on by an
    enzyme
  • Active site specific region of the enzyme that
    the substrate fits into
  • Substrate binds to enzymes active site where the
    substrate undergoes a change
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