organic compounds isomers functional groups
Transcript of organic compounds isomers functional groups
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Chapter 4: Life is based on molecules
with carbon (organic molecules)
organic compounds
isomers
functional groups
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Much of the chemistry of life is
based on organic compounds
organic compounds have at least one carbon atom covalently bound to either:
another carbon atom
or to hydrogen
the chemistry of organic molecules is organized around the carbon atom
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• Discuss the chemistry of carbon. How
does it typically bond? What does it
typically bond to? What sort of shapes,
angles, freedoms, etc. are associated
with the bonds that it makes?
• Draw a tetrahedron.
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Organic Compounds
carbon atoms have six electrons –
2 in level 1
4 in their valence (outer) shell (level 2)
carbon is not a strongly electron seeking element, and it does not readily give up its electrons; therefore:
carbon does not readily from ionic bonds
it almost always forms covalent bonds
carbon can form up to 4 covalent bonds (and typically does form all four)
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Organic Compounds
wide diversity in organic compounds
over 5 million identified
variety partially because carbon tends to bond to carbon, hydrogen, oxygen, nitrogen, sulfur, and phosphorus
hydrocarbons – contain only hydrogen and carbon
single carbon-carbon bonds allow rotation around them and lend flexibility to molecules
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Organic Compounds
building of organic macromolecules also leads to diversity
carbon works well as a molecular “backbone” for forming long chain molecules
stronger carbon-carbon bonds can be made with double and triple covalent bonds
carbon chains can branch
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Organic Compounds
the shape of a molecule is important in determining its chemical and biological properties
When 4 separate bonds are formed by carbon…
formed at 109.5 degree angles
form a pyramid with a triangular base called a tetrahedron
When double bonds are formed…
angles are 120 or 180 degrees apart, and they all lie in the same plane
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Organic Compounds
bond angles for carbon play a critical role in determining the shape of molecules
generally there is freedom to rotate around carbon to carbon single bonds but not double (or triple) bonds
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• Discuss the chemistry of carbon. How
does it typically bond? What does it
typically bond to? What sort of shapes,
angles, freedoms, etc. are associated
with the bonds that it makes?
• Draw a tetrahedron.
![Page 10: organic compounds isomers functional groups](https://reader031.fdocuments.net/reader031/viewer/2022021022/6204d50827ab6a167c4d183a/html5/thumbnails/10.jpg)
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Chapter 4: Life is based on molecules
with carbon (organic molecules)
organic compounds
isomers
functional groups
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• Discuss isomers. What are they? What
is the difference between structural
isomers and stereoisomers? Between
cis-trans isomers and enantiomers?
• Draw an example of each of these:
structural isomers
cis-trans isomers
enantiomers
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• What type of isomer situation is this?
How do you know?
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• What type of isomer situation is this?
How do you know?
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• What type of isomer situation is this?
How do you know?
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• What type of isomer situation is this?
How do you know?
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• What type of isomer situation is this?
How do you know?
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• What type of isomer situation is this?
How do you know?
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Isomers
have the same molecular formula
have different structures
there are two kinds of isomers
structural isomers
stereoisomers
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Isomers
structural isomers - substances with the same molecular formula that differ in the covalent arrangement of their atoms
example: ethanol and dimethyl ether (C2H6O)
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Isomers stereoisomers - substances with the same
arrangement of covalent bonds, but the order in which the atoms are arranged in space is different
two types: enantiomers and diastereomers
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Isomers cis-trans isomers – diastereomers associated with
compounds that have carbon-carbon double bonds
since there is no rotation around the double bond the other atoms attached to the carbons are stuck in place in relationship to each other
larger items together = cis; larger items opposite = trans
examples: trans-2-butene and cis-2-butene
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Isomers
enantiomers – substances that are mirror images of each other and that cannot be superimposed on each other
sometimes called optical isomers (kind of a loose term, though)
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Isomers
typically, only one form of an enatiomer pair is found in and/or used by organisms
the enantiomers are given designations such as
[(+)- vs. (−)-] or [D- vs. L-] or [(R)- vs. (S)-]
biologically important enantiomers include
amino acids (found in proteins) – most are L-amino acids
(e.g. L-leucine, L-alanine, etc)
sugars – most are D-sugars
(e.g. D-glucose, D-fructose, etc.)
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• Discuss isomers. What are they? What
is the difference between structural
isomers and stereoisomers? Between
cis-trans isomers and enantiomers?
• Draw an example of each of these:
structural isomers
cis-trans isomers
enantiomers
![Page 25: organic compounds isomers functional groups](https://reader031.fdocuments.net/reader031/viewer/2022021022/6204d50827ab6a167c4d183a/html5/thumbnails/25.jpg)
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Chapter 4: Life is based on molecules
with carbon (organic molecules)
organic compounds
isomers
functional groups
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• What is a functional group, and why is it
useful to know them? Quiz each other
on the names and chemistry of the
functional groups in the notes.
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Functional Groups
functional groups determine most of the reactive properties (functions) of organic molecules
functional groups are groups of atoms covalently bonded to a carbon backbone that give properties different from a C-H bond
the properties of the major classes of organic compounds (carbohydrates, lipids, proteins, and nucleic acids) are determined mostly by their functional groups
learn the seven functional groups on the following slides
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Functional Groups
hydroxyl group: polar; found in alcohols
carbonyl group: polar; found in aldehydes and ketones
carboxyl group: weakly acidic; found in organic acids (such as amino acids)
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Functional Groups
amino group: weakly basic; found in such things as amino acids
sulfhydryl group: essentially nonpolar; found in some amino acids
phosphate group: weakly acidic; found in such things as phospholipids and nucleic acids
methyl group: nonpolar (thus hydrophobic); found in such things as lipids, other membrane components
P