Download - Bio chapter 4 – Carbon
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Chapter 4
Carbon and the Molecular Diversity of Life
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Overview: Carbon—The Backbone of Biological Molecules
• Although cells are 70–95% water, the rest consists mostly of carbon-based compounds
• Carbon is unparalleled in its ability to form large, complex, and diverse molecules
• Proteins, DNA, carbohydrates, and other molecules that distinguish living matter are all composed of carbon compounds
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Concept 4.1: Organic chemistry is the study of carbon compounds
• Organic compounds range from simple molecules to colossal ones
• Most organic compounds contain hydrogen atoms in addition to carbon atoms
• Vitalism, the idea that organic compounds arise only in organisms, was disproved when chemists synthesized the compounds
• Mechanism is the view that all natural phenomena are governed by physical and chemical laws
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1953—Stanley Miller
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Concept 4.2: Carbon atoms can form diverse molecules by bonding to four other atoms (valence of 4)
• Electron configuration is the key to an atom’s characteristics
• Electron configuration determines the kinds and number of bonds an atom will form with other atoms
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The Formation of Bonds with Carbon
• With four valence electrons, carbon can form four covalent bonds with a variety of atoms
• This tetravalence makes large, complex molecules possible
• In molecules with multiple carbons, each carbon bonded to four other atoms has a tetrahedral shape
• However, when two carbon atoms are joined by a double bond, the molecule has a flat shape
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LE 4-3
MolecularFormula
StructuralFormula
Ball-and-StickModel
Space-FillingModel
Methane
Ethane
Ethene (ethylene)
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• The electron configuration of carbon gives it covalent compatibility with many different elements
• The valences of carbon and its most frequent partners (hydrogen, oxygen, and nitrogen) are the “building code” that governs the architecture of living molecules
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LE 4-4
Hydrogen(valence = 1)
Oxygen(valence = 2)
Nitrogen(valence = 3)
Carbon(valence = 4)
Valence electrons
1 6 5 4
Note the difference between valence electrons and valence. Do not get mixed up.
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Molecular Diversity Arising from Carbon Skeleton Variation
• Carbon chains form the skeletons of most organic molecules
• Carbon chains vary in length and shape
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LE 4-5
LengthEthane Propane
Butane 2-methylpropane(commonly called isobutane)
Branching
Double bonds
Rings
1-Butene 2-Butene
Cyclohexane Benzene
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Hydrocarbons• Hydrocarbons are organic molecules consisting
of only carbon and hydrogen• Many organic molecules, such as fats, have
hydrocarbon components• Hydrocarbons can undergo reactions that
release a large amount of energy
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Figure 4.6
Nucleus
Fat droplets
(b) A fat molecule(a) Part of a human adipose cell
10 μm
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Isomers• Isomers are compounds with the same
molecular formula but different structures and properties:– Structural isomers have different covalent
arrangements of their atoms– Geometric isomers have the same covalent
arrangements but differ in spatial arrangements– Enantiomers are isomers that are mirror images
of each other
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LE 4-7
Structural isomers differ in covalent partners, as shown in this example of two isomers of pentane.
Geometric isomers differ in arrangement about a double bond. In these diagrams, X represents an atom or group of atoms attached to a double-bonded carbon.
cis isomer: The two Xsare on the same side.
trans isomer: The two Xsare on opposite sides.
L isomer D isomer
Enantiomers differ in spatial arrangement around an asymmetric carbon, resulting in molecules that are mirror images, like left and right hands. The two isomers are designated the L and D isomers from the Latin for left and right (levo and dextro). Enantiomers cannot be superimposed on each other.
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• Enantiomers are important in the pharmaceutical industry
• Two enantiomers of a drug may have different effects
• Differing effects of enantiomers demonstrate that organisms are sensitive to even subtle variations in molecules
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Figure 4.8Drug Effects Effective
EnantiomerIneffectiveEnantiomer
Ibuprofen
Albuterol
Reducesinflammation
and pain
Relaxes bronchial(airway) muscles,improving airflow
in asthmapatients
S-Ibuprofen
R-AIbuterol S-AIbuterol
R-Ibuprofen
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4. What type of isomer is propanal compared to acetone?
a. cis-trans isomerb. structural isomerc. enantiomerd. none of the above; these are not isomers
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4. What type of isomer is propanal compared to acetone?
a. cis-trans isomerb. structural isomerc. enantiomerd. none of the above; these are not isomers
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Concept 4.3: Functional groups are the parts of molecules involved in chemical
reactions
• Distinctive properties of organic molecules depend not only on the carbon skeleton but also on the molecular components attached to it
• Certain groups of atoms are often attached to skeletons of organic molecules
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The Functional Groups Most Important in the Chemistry of Life• Functional groups are the components of
organic molecules that are most commonly involved in chemical reactions
• The number and arrangement of functional groups give each molecule its unique properties
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LE 4-9
Estradiol
Testosterone
Male lion
Female lion
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• The seven functional groups that are most important in the chemistry of life– Hydroxyl group– Carbonyl group– Carboxyl group– Amino group– Sulfhydryl group– Phosphate group– Methyl group – also primary amide and acetyl
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Figure 4.9
Chemical Group Compound Name Examples
Ethanol
PropanalAcetone
Acetic acid
Glycine
Cysteine
Glycerol phosphate
Organicphosphate
Thiol
Amine
Carboxylic acid, ororganic acid
KetoneAldehyde
AlcoholHydroxyl group (—OH)
Carboxyl group (—COOH)
Amino group (—NH2)
Sulfhydryl group (—SH)
Phosphate group (—OPO32−)
Methyl group (—CH3) Methylatedcompound
5-Methyl cytosine
Carbonyl group ( C =O)
——
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Others
• R-CH2-CH3 alkyl
O• R-C-CH3 acetyl
O• R-C-N-H primary amide
H
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ATP: An Important Source of Energy for Cellular Processes
• One phosphate molecule, adenosine triphosphate (ATP), is the primary energy-transferring molecule in the cell
• ATP consists of an organic molecule called adenosine attached to a string of three phosphate groups
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Figure 4.UN04
Adenosine
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Figure 4.UN05
Reactswith H2O
Inorganicphosphate
ADP
EnergyAdenosine Adenosine
ATP
P P P P PP i
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The Chemical Elements of Life: A Review
• The versatility of carbon makes possible the great diversity of organic molecules
• Variation at the molecular level lies at the foundation of all biological diversity
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5. Based on these results, how many molecules of methionine are present per mole of glycine?
a. 1.08 x 1070 moleculesb. 1.8 x 103 moleculesc. 1.08 x 1021 moleculesd. 6.02 x 1023 molecules
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5. Based on these results, how many molecules of methionine are present per mole of glycine?
a. 1.08 x 1070 moleculesb. 1.8 x 103 moleculesc. 1.08 x 1021 molecules d. 6.02 x 1023 molecules
Moles methionine/moles glycine x 6.023 x 1023 molecules methionine/mole methionine