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What is the chemical basis of life?

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Title: What is the chemical basis of life?


1
What is the chemical basis of life?
  • What are some of the ideas central to the
    chemistry of life?
  • (Key concepts of the chemical basis of life)

2
Ideas central to the chem of life
  • Based on covalent bonding
  • Carbon is the backbone of biomolecules
  • Simple building code
  • Variation on common theme in extreme
  • Only 4 fundamental types of biomolecules
  • Enzymes make and break the covalent bonds in the
    chemical reactions in the cell
  • Isomers and polymers
  • Condensation and Hydrolysis

3
Elements Essential to Life
  • About 25 of the 92 natural occurring elements are
    essential to life
  • CHON 96 liv mat
  • CHONPS gt 99

4
Famous ions in Biology
  • Hydronium H3O and Hydroxide OH-
  • Potassium K ions
  • Sodium Na ions
  • Calcium Ca2 ions
  • Hydrogen H ions (protons)

5
A continuum view of bonding
  • Atoms complete their valence shell in a continuum
    of
  • Nonpolar covalent with equal sharing of e-
  • Examples HH O O
  • Polar covalent, unequal sharing of e-
  • Examples H2O NH3
  • Ionic, with complete transfer of e-
  • Examples NaCl Al2O3

6
Weak Bonds are Bioly ImportantH bonds,
hydrophobic interactions
  • Can form between different parts of a single
    large molecule or between molecules
  • Help stabilize 3D shape of proteins Nucleic
    Acids
  • Hold enzymes to substrates
  • Function in chemical signaling

7
Biological Building Codes
  • Covalent Bond shared pair of electrons between 2
    nonmetals
  • H, 1 unpaired e-
  • O, 2 unpaired e-
  • N, 3 unpaired e-
  • C, 4 unpaired e-

8
Versatility of Carbon
  • 4 valence electrons
  • Compatibility with many different els
  • S, D, T bonds
  • Makes large, complex molecules possible
  • Strait chains
  • Branched chains
  • Rings

9
  • Polymer
  • (poly many mer part)
  • Large molecules consisting of many similar
    subunits connected together
  • Monomer subunit or building block of polymer

10
Macromolecules are Polymers
  • Carbohydrates polymer of monosaccharides
  • Lipids polymer of fatty acids glycerol
  • Proteins polymer of amino acids
  • Nucleic Acids polymer of nucleotides

11
Polymers Molecular Diversity
  • Unity in life Only about 40 or 50 common
    monomers build macromolecules
  • Diversity in life New properties emerge when
    these monomers are arranged in different ways

12
Sucrose Synthesis
13
Hydrolysis
14
Making Breaking Polymersanimation
  • Dehydration synthesis
  • Link monomers
  • Via removal of H2O
  • 1 water per link (out)
  • One monomer lose OH, other loses H
  • Any assembling of molecules in cells
  • Hydrolysis
  • Disassemble polymers
  • Via addition of H2O
  • 1 water per link (in)
  • One monomer gains OH, other gains H
  • Any disassembly of molecules in cells

15
Carbohydrates (sugars)
  • Classified based on of simple sugars
  • C H O in 121 ratio
  • Major nutrients for cells ie glucose
  • Produced by photosynthetic organisms
  • Store energy in chemical bonds
  • C skeletons raw materials for other organic
    compounds

16
Carbohydrates-disaccharides
  • Disacch. Monomers
  • Maltose glu glu
  • Lactose glu galac
  • Sucrose glu fru

17
Carbohydrates Polysaccharides
  • 2 Important biological functions
  • Energy storage (starch, glycogen)
  • Structural support (cellulose, chitin)

18
Storage Polysaccharides
  • Starch glucose polymer, for energy storage in
    plants
  • Helical glucose polymer
  • Most animals have enzymes to hydrolyze it
  • Major sources in
  • Human diet are potatoes
  • And grains

19
Storage Polysaccharides
  • Glycogen glucose polymer, for energy storage in
    animals
  • Branched molec.
  • Stored in muscle
  • and liver of humans
  • and other vertebrates

20
Structural Polysaccharides
  • Cellulose linear unbranched polymer
  • Major structural component of plant cell walls
  • Differs from starch in its monomer linkage
  • Cannot be digested by most organisms

21
Structural Polysaccharides
  • Chitin structural polysacch. a polymer of an
    amino sugar (natures plastic)
  • Forms exoskeleton of Arthropods
  • Found as cell walls in fungi

22
Lipids
  • Diverse group of organic compounds that are
  • insoluble in water
  • Includes animal fats,
  • plant oils, steroids,
  • phospholipids
  • Made of fatty acids
  • and glycerol

23
Fat
  • Saturated
  • All single bonds
  • Solid at room temp
  • Animal fats
  • Unsaturated
  • One or more double bonds between carbons
  • Liquid at room temp
  • Vegetable or plant oils

24
Useful functions of fat
  • Energy storage
  • More compact fuel reserve than carbo.
  • Cushions vital organs in mammals
  • Insulates against heat loss

25
Phospholipids
  • Component of cell membranes (bilayer)
  • 2 fatty acids phosphate group
  • Amphipathic behavior in water

26
Steroids
  • Lipids w/ 4 fused carbon rings and various
    functional groups
  • Cholesterol important as precurser to other
    steroids and enhance membrane fluidity

27
Proteins
  • Complex polymers of amino acids
  • Abundant make up 50 or more of dry wt
  • Varied functions in cell structure, metabolism,
    transport, signaling, movement, defense
  • Each has unique 3-D shape
  • Made of only 20 different amino acids

28
Amino Acid Structure
29
Nucleic Acids
  • Deoxyribonucleic Acid (DNA)
  • Can replicate itself and be passed from one
    generation of cells to the next
  • Genes are segments of DNA that code for protein
  • Ribonucleic Acid (RNA)
  • Functions as mediator between genotype and
    phenotype
  • 3 functional forms carry out protein synthesis

30
Nucleic Acids
  • DNA, the Genetic Code
  • RNA the Trait Maker

31
Nucleotides monomers of nucleic acids
  • Pentose, a 5C sugar
  • Nitrogen Base
  • Phosphate
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