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Carbon & Molecular Diversity Ch 4  Chapter 4. Carbon Overview  Backbone for biological molecules All living organisms are made up of chemicals based.

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Presentation on theme: "Carbon & Molecular Diversity Ch 4  Chapter 4. Carbon Overview  Backbone for biological molecules All living organisms are made up of chemicals based."— Presentation transcript:

1 Carbon & Molecular Diversity Ch 4  Chapter 4

2 Carbon Overview  Backbone for biological molecules All living organisms are made up of chemicals based mostly on carbon  Organic Molecules Carbs, Lipids, Nucleic Acids, Proteins Include CHNOPS in different combinations in all living things  Enters biosphere through plants (photosynthesis) which covert CO 2 into molecules for life using sunlight energy

3 Organic Chemistry  The study of compounds containing carbon Must contain carbon and hydrogen CO 2 not organic  Originally thought to only be produced by living things  Herman Kolbe made the organic compound acetic acid from inorganic compounds NH 4 + and CNO -  Stanley Miller (Urey’s student) related it to evolution Chemical origin of life (created organic material from inorganic material Recreated Earth’s early atomosphere, produced amino acids and other small organic molecules

4 Carbon Bonding H O NC Hydrogen (valence = 1) Oxygen (valence = 6) Nitrogen (valence = 5) Carbon (valence = 4) Figure 4.4

5 Carbon Bonding  Can form 4 covalent bonds Double or single 4 valence electrons – tetravalence Versatile, varied, and diverse (a) Methane (b) Ethane (c) Ethene (ethylene) Molecular Formula Structural Formula Ball-and- Stick Model Space- Filling Model H H H H H H H H H H HH H H C C C CC CH 4 C2H6C2H6 C2H4C2H4 Name and Comments Figure 4.3 A-C

6 Carbon Skeletons  Vary in length  Can branch  Can contain double or single bonds  Can be found as rings H H H H H HH H H H H HHH H H H H H H H H H H H H H H H H H H HH H H H HH H HH HH H H H H H H H C C CCC C C CC CC C CCCCCCCC C C C C C C C C C C C C H H H H H H H (a) Length (b) Branching (c) Double bonds (d) Rings Ethane Propane Butane 2-methylpropane (commonly called isobutane) 1-Butene2-Butene Cyclohexane Benzene HH HHH Figure 4.5 A-D

7 Hydrocarbons (a) A fat molecule (b) Mammalian adipose cells 100 µm Fat droplets (stained red) Figure 4.6 A, B

8 Hydrocarbons  Contain only carbon and hydrogen, release a lot of energy when the bond is broken  hydrophobic

9 Isomers  Isomers - molecules with the same molecular formula but different structures and therefore different properties H H HH H H H H HH H H H HH H H H H H H H HH H H H H CO 2 H CH 3 NH 2 C CO 2 H H CH 3 NH 2 XX X X C CCCC C C C C C C C C C C (a) Structural isomers (b) Geometric isomers (c) Enantiomers H Figure 4.7 A-C

10 Isomers  1. Structural Isomers – differ in the covalent arrangements of their atoms # of possible structural isomers increases as skeletons increase in size

11 Isomers  2. Geometric Isomers – differ in the arrangement around a double bond Cis – same side Trans – opposite sides

12 Isomers  Enantiomers – mirror images of each other L (left) and D (right) Asymmetric carbon – 4 different atoms or groups of atoms

13 Functional Groups

14  The parts of molecules involved in chemical reactions  Are the chemically reactive groups of atoms within an organic molecule  Give organic molecules distinctive chemical properties  Six important to life

15 Functional Groups  1. Hydroxyl - hydrogen bonded to an oxygen bonded to a carbon skeleton  -OH or OH- (NOT hydroxide OH - )  Alcohols Ex: Ethan ol  Polar  Attract water molecules

16 Functional Groups  2. Carbonyl – carbon joined to an oxygen with a double bond  >C=O  Ketone (middle) or aldehyde (end) Acet one and propan al  Frequently structural isomers

17 Functional Groups  3. Carboxyl – oxygen is double bonded to a carbon that is also bonded to a hydroxyl  - COOH  Carboxylic Acids Acetic acid  Acidic properties – donates H+ (proton)  Polar  Carboxylate – ionic form in cells (-)

18 Functional Groups Amino  4. Amino – nitrogen atom bonded to 2 hydrogen atoms and the carbon skeleton  - NH 2  Amines Glyc ine  Basic properties – picks up H+  Ionized in cells (+)

19 Functional Groups  5. Sulfhydryl – sulfur atom bonded to a hydrogen  -SH or –HS  Thiols ethaneth iol  Groups interact to form disulfide bridges that stabilize proteins

20 Functional Groups  6. Phosphate – phosphorus is bonded to 4 oxygen atoms 1 oxygen bonds to the carbon 2 oxygens are negative  -OPO 3 2-  Organic Phosphates Adenosine tri phosphate (ATP) reacts with water to produce ENERGY  Transfers energy between organic molecules

21 Isomers  Create a tree map to classify and describe the different types of isomers. Give an example of each and draw and example of each.  Summarize

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