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CARBON CARBON EVERYWHERE!!

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Presentation on theme: "CARBON CARBON EVERYWHERE!!"— Presentation transcript:

1 CARBON CARBON EVERYWHERE!!
Macromolecules

2 Importance of carbon Single Double bonds with Oxygen Single
with Nitrogen Single Double Triple bonds with Carbon

3 Importance of carbon

4 Importance of carbon

5 Importance of carbon Geometry
Compounds of carbon can exist as stereoisomers Stereoisomers - Stereospecific - requires specific stereochemistry _____________ isomers

6 Importance of carbon Geometry
Compounds of carbon can exist as stereoisomers Stereoisomers - different molecules in which the order of bonding is the same, but the spatial relationship among the atoms is different - differing configuration Stereospecific - requires specific stereochemistry geometric isomers

7 Importance of geometry
HIV genome (gray) is made of RNA, it has a complementary surface for an important protein molecule to bind (colored stick model)

8 Importance of carbon Chiral carbon

9 Importance of carbon Chiral carbon
Chiral carbon - asymmetric carbon with 4 different substituents

10 Molecules with chiral centers
19 of the 20 Amino acids in proteins have a chiral center

11 Importance of carbon Chiral carbon
In living organisms, chiral molecules usually exist in only one chiral form Amino acids (protein building blocks) - only L isomers Glucose (carbohydrate building block) - only D isomer

12 Chemical reactivity Five MAJOR reaction types in biochemistry
(1) Oxidation-Reduction Reactions OXIDATION = Loss of electrons REDUCTION = Gain of electrons A dehydrogenation reaction - when a reactant loses 2 electrons and 2 H+ (enzyme = dehydrogenases) OXIDATION

13 Chemical reactivity Cleavage and formation of C-C bonds Examples:

14 Chemical reactivity (2) Cleavage and formation of C-C bonds (or C-N bonds) Monomeric subunits are joined with the release of water Unfavorable reaction

15 Chemical reactivity Cleavage and formation of C-C bonds
Nucleophiles - rich in electrons Electrophiles - electron deficient

16 Chemical reactivity (2) Cleavage and formation of C-C bonds
Nucleophilic substitution - electron-rich group replaces departing anion Substitution nucleophilic, unimolecular Substitution nucleophilic, bimolecular

17 Chemical reactivity (3) Internal rearrangements, isomerizations and eliminations Redistribution of electrons results in (i) isomerization (ii) transposition of double bonds (iii) cis-trans rearrangements of double bonds

18 Chemical reactivity (4) Group Transfers
In metabolism - attachment of a good leaving group to a metabolic intermediate to “activate” it for subsequent reaction Good leaving group Example

19 Chemical reactivity (5) Free radical reactions
Homolytic cleavage of covalent bonds to generate free radicals Repair of damaged DNA by DNA photolyase

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