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Acid/Bases%20Review

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Title: Acid/Bases%20Review


1
Acid/Bases Review
  • http//www.youtube.com/watch?vGYzH_NiIAaYfeature
    related

2
Section 2.3 Carbon Compounds
  • The branch of science that studies compounds that
    contain carbon atoms is known a organic chemistry
  • (Inorganic chemistry is the study of all of the
    other types of compounds)
  • FYI- Biochemistry is the study of the molecules
    within living things!

3
The Chemistry of Carbon
  • Carbon is unique because it has 4 valence
    electrons which means it has 4 electrons that
    want to share 4 electrons from other atoms
  • Which type of bonds would these atoms form?
  • COVALENT BONDS Share electrons!

4
Carbons Bonds
  • Carbon can bond with many elements
  • To form the molecules of life, carbon can bond
    with
  • Hydrogen
  • Oxygen
  • Phosphorus
  • Sulfur
  • Nitrogen
  • Carbon can also bond to other carbons
  • Can form chains, rings
  • Single, double, and triple bonds

5
Macromolecules
  • Macromolecules giant molecules are large
    organic compounds made from thousands of smaller
    molecules
  • They are formed by the process of polymerization
  • Monomers (smaller units) that join together to
    form polymers

6
Macromolecules
  • Macromolecules are classified into 4 main groups
  • Carbohydrates
  • Lipids
  • Nucleic Acids
  • Proteins

7
Carbohydrates
  • Composed of
  • Carbon
  • Hydrogen
  • Oxygen atoms ( in a121 ratio)

8
Carbohydrates
  • Function
  • Used by living things as their main source of
    energy
  • When the bonds are broken between the sugar
    molecules, energy is released used for cell
    activities
  • Extra sugars are stored as starches (long chains
    of sugars)
  • Potatoes, carrots, corn
  • Some organisms use carbohydrates for structural
    purposes (i.e. plants, invertebrates)

9
Carbohydrates
  • Simple sugars
  • Single sugar molecules (monosaccharides)
  • Glucose
  • Galactose (milk)
  • Fructose (fruit)
  • 2 simple sugars (disaccharides)
  • Sucrose (table sugar)
  • Made from glucose and fructose

10
Carbohydrates
  • Complex Carbohydrates
  • Polysaccharides formed by many monosaccharides
  • Many animals store their extra sugar as glycogen
  • Stored in your muscles to supply them with energy
    to function
  • 2 simple sugars (disaccharides)
  • Sucrose (table sugar)
  • Made from glucose and fructose

11
Carbohydrates
  • Plants and Polysaccharides
  • Plants store their extra sugar as starches
  • They also make cellulose
  • These fibers are tough and flexible
  • They give plants their strength and rigidity

12
Lipids
  • Large molecules that are generally not soluble in
    water
  • Composed of
  • Mostly carbon and hydrogen atoms
  • Fats, oils, waxes

13
Lipids
  • Functions
  • Used to store energy in the body
  • Parts of biological membranes
  • Waterproof coverings
  • Steroids (hormones)

14
Lipids
  • Made from a glycerol molecule combined with fatty
    acids
  • The fatty acids are chains of carbon joined to
    each other
  • If all the carbons are joined together with a
    single bond they are called saturated
  • They are saturated because they have the highest
    amount of hydrogen atoms bonded to their carbons
  • Saturated fats are unhealthy because their
    straight chains make it easier for them to layer
    up in arteries to form plaque
  • They tend to be solids at room temperature

15
Lipids
  • Made from a glycerol molecule combined with fatty
    acids
  • The fatty acids are chains of carbon joined to
    each other
  • If at least 2 carbons are joined together with a
    double bond they are called unsaturated
  • They are unsaturated because they do not have the
    most hydrogen atoms bonded to their carbons
  • Unsaturated fats are healthier fats because their
    kinked chains make it difficult for them to
    layer up in arteries to form plaque
  • They tend to be liquids at room temperature

16
Nucleic Acids
http//intranet.canacad.ac.jp3445/BiologyIBHL1/10
31
  • Consist of
  • Hydrogen, oxygen, nitrogen, carbon, and
    phosphorus
  • Contain a 5-carbon sugar, phosphate group, and
    nitrogenous base
  • Nucleic acids are polymers made from nucleotides
    (monomers) that are joined by covalent bonds

17
Nucleic Acids
  • Function
  • Store and transmit hereditary (genetic)
    information of your cells
  • DNA (deoxyribonucleic acid sugar- deoxyribose)
  • RNA (ribonucleic acid sugar- ribose)

18
Proteins
  • Consist of
  • Nitrogen, carbon, hydrogen, oxygen
  • Polymer made of amino acids (monomers)
  • Amino acids- contain an amino group (-NH2) and
    carboxyl group (-COOH)
  • Amino acids are linked together by peptide bonds
    (covalent bonds)
  • Polypeptide- more than 2 amino acids bonded
    together

19
Proteins
  • Functions
  • Control the rate of reactions
  • Regulate cell processes
  • Form cellular structures
  • Transport substance in or out of cells
  • Fight disease

20
Proteins
  • More than 20 amino acids are found in nature
  • All amino acids can join to other amino acids by
    bonding their amino group to their carboxyl group
  • The R groups differ
  • between amino acids

http//www.ucl.ac.uk/sjjgsca/ProteinStructure.htm
l
21
Protein Organization
  • Instructions for how amino acids are assembled
    are coded in each cells DNA
  • Proteins have 4 levels of structure
  • Primary
  • Secondary
  • Tertiary
  • Quaternary

22
Proteins Structure
  • Primary
  • The sequence of a proteins amino acids

http//biotech.matcmadison.edu/resources/proteins/
labManual/chapter_2.htm
23
Proteins Structure
  • Secondary
  • The folding or coiling of a polypeptide chain
  • Alpha helix (curly)
  • Beta-pleated sheets
  • (crimpy)

http//biotech.matcmadison.edu/resources/proteins/
labManual/chapter_2.htm
24
Proteins Structure
  • Tertiary
  • The 3D arrangement of the polypeptide chain

http//biotech.matcmadison.edu/resources/proteins/
labManual/chapter_2.htm
25
Proteins Structure
  • Quaternary
  • Proteins with more than one chain
  • Describes how the chains are arranged relative to
    each other

http//biotech.matcmadison.edu/resources/proteins/
labManual/chapter_2.htm
26
Protein Structure
  • The shape of a protein is the result of
  • Ionic bonds
  • Covalent bonds
  • van der Waals forces
  • Hydrogen bonds
  • between the amino acids that make up the
    polypeptide chains
  • The specific structure of hemoglobin allows it
    to carry oxygen within red blood cells
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