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WWU Chemistry
ADDITION-ELIMINATION: ADDITION-ELIMINATION: NITROGEN AND PHOSPHORUS NITROGEN AND PHOSPHORUS
NUCLEOPHILESNUCLEOPHILES
Sections 16.12 - 16.14
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WWU Chemistry
Compounds that bear an amino group
G NH2
form Imines.
The G group can be one of many different possibilities
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WWU Chemistry
Addition-Elimination:The Formation of Imines
+.. HA
+ H2OC O
R
R
C
R
R
N GG NH2
an imine
All of the imine reactions, regardless of G, go by the same mechanism.
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WWU Chemistry
Mechanism of Imine FormationStep 1
+slow.. ..
..+
_..:..
.. ..
..
.. ..
..
Step 2
+ HAfast
+ + A_
H2O+
C OH
R
R
G N
H
H
C O
R
R
C
R
R
NG
H
G N
H
C OH
R
R
G NH2C O
R
R
G N
H
What is the mechanism of this step?
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WWU Chemistry
Mechanism of Imine Formation(Part Two)
Step 3
++ A
_ fast+
..H ANG
H
C
R
R
NG C
R
R
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WWU Chemistry
•This is Addition-Elimination
•The first step is carbonyl addition of an amine, and the second step is a dehydration (elimination) to yield the C=N double bond.
•HA is the catalyst
•Step #1 is rate-determining, unless the amine is very basic (e.g., semicarbazide or aniline), in which case step #2 becomes rate-determining.
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WWU Chemistry
Carbonyl compounds react with:
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WWU Chemistry
Formation of Simple Imines
+ + H2OC O
R
R
NH2 R C N
R
R
R..
an imine
acid
•Aldehydes and ketones react with simple primary amines to yield imines.
•The equilibrium is unfavorable; the products are much less stable than the reactants.
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WWU Chemistry
A Simple Model for Enzyme-Substrate
Binding.
NH2+
O
CR R
N C
R
R
enzyme substrate
enzyme-substrate complex
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WWU Chemistry
H2NCH2
CH2CH2
CH2CH
COH
O
NH2
Lysine
If lysine is part of the protein chain of the enzyme, the terminal amino group is available to bind to carbonyl groups to form an imine.
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WWU Chemistry
•Once the substrate (aldehyde or ketone) is bound to the enzyme, the active site of the enzyme is in a position to react with and modify the substrate.
•At the end of the reaction, because imines come apart easily (remember the “unfavorable” equilibrium?), the modified substrate can dissociate from the enzyme and return to the solution.
•As we can see, often biological substrates possess carbonyl groups so that they can act as a “handle” in enzyme-substrate binding. The carbonyl group may have no other chemical purpose than just this one!
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WWU Chemistry
Formation of Oximes
+ + H2OC O
R
R
NH2 OH C
R
R
N OH..
an oxime
acid
hydroxylamine
•Aldehydes and ketones react with hydroxylamine to yield oximes.
•Oximes are important derivatives in qualitative organic analysis.
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WWU Chemistry
What’s a Derivative?• One of the principal tests for the correct
identification of an unknown compound comes in trying to convert the compound by a chemical reaction into another known compound -- a derivative
• If the melting point of the derivative matches the expected value, according to the literature, then one can assume that the original substance had been correctly identified.
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WWU Chemistry
Formation of Hydrazones
+ + H2O..
a hydrazone
C O
R
R
NH2 NH R C
R
R
N NH Racid
a hydrazine
•Aldehydes and ketones react with substituted hydrazines to yield substituted hydrazones.
•The equilibrium is generally unfavorable.
•Exception: when R is an aromatic ring.
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WWU Chemistry
2,4-Dinitrophenylhydrazones
+
+ H2O
C O
R
R
NH2 NH NO2
NO2
C
R
R
N NH
NO2
NO2
..
a 2,4-dinitrophenylhydrazone
a 2,4-DNP
acid
2,4-dinitrophenylhydrazine
2,4-DNP’s are the most important of all derivatives for aldehydes and ketones.
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WWU Chemistry
Formation of Semicarbazones
+
+ H2O
C O
R
R
NH2 NH C NH2
O
C
R
R
N NH C NH2
O
..
a semicarbazone
acid
semicarbazide
•Aldehydes and ketones react with semicarbazide to yield semicarbazones.
•Semicarbazones are the second-most important of the derivatives of aldehydes and ketones.
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WWU Chemistry
Formation of Phenylhydrazones
C O
R
R
+ NHH2N
HA
C N
R
R
NH + H2O
Phenylhydrazine
a phenylhydrazone
In most cases, the equilibrium is unfavorable. However, this reaction is sometimes used to form derivatives of the sugars.
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WWU Chemistry
As we have already seen, substituted amines can react with aldehydes and ketones to form a variety of products.
Primary amines can yield imines by an addition-elimination process.
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WWU Chemistry
Addition-Elimination:The Formation of Imines
+.. HA
+ H2O
an imine
C O
R
R
C
R
R
N GG NH2
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WWU Chemistry
When secondary amines are allowed to react with aldehydes or ketones, dehydration of the type shown in the elimination step cannot take place (there is no labile hydrogen on the nitrogen atom of the addition product).
CH2 C R
OH
NR' R'
R
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WWU Chemistry
If the starting aldehyde or ketone has an -hydrogen, however, dehydration toward the -carbon can occur, yielding an enamine.
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WWU Chemistry
Formation of Enamines
R C C
H
R
R
OH
H
NRR
R C C
H
R
R
OH2
NRR
R C C
H
R
R
NRR
+ OH
R C C
R
R
NRR
An enamine
Protonated byHOTs catalyst
slow
H
Resonance-stabilized
A proton goes back to the reaction medium
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WWU Chemistry
The equilibrium for the formation of enamine is not favorable. It can be shifted to the right, however, by removing the water by azeotropic distillation as it is formed.
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WWU Chemistry
The enamine is quite nucleophilic, owing to resonance of the type:
C C
R
R
R
N
R'
R'
C C
R
R
R
N
R'
R'
As a consequence of this resonance, the -carbon of an enamine has a great deal of carbanion-like (nucleophilic) character.
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WWU Chemistry
Amines that are used typically to form enamines:
N H
CH2
CH2CH3
CH3
N
H
Diethylamine
Pyrrolidine
N
H
Piperidine
N
O
H
Morpholine
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WWU Chemistry
Nucleophilic Characterof Enamines
C C
R
R R
N
R
R
C C
R
R R
N
R
R: +..
_
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WWU Chemistry
Reactions of Enaminesas Nucleophiles
: +
+
:
+ X_
an iminium salt
C C
R
R R
N
R
R
R X
R C C R
R
R
N
R R
R C C R
R
R
N
R R
SN2
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WWU Chemistry
Hydrolysis of Iminium Salts(Part One)
1)
..
..
+
slow
:+
+
..:
+
..:
2)
+..
+..
:
N
R R
H
R C C R
O
R
R H
R C C R
O
R
R
H H
N
R R
R C C R
O
R
R H
N
R R
H
R C C R
O
R
R H
OH H
N
R R
H
R C C R
R
R
N
R R
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WWU Chemistry
Hydrolysis of Iminium Salts(Part Two)
3)
+..
+ H+
: :
R C C R
O
R
R H
R C C R
O
R
R
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WWU Chemistry
Enamines can react with alkyl halides -- Here’s an example.
Apply the previous mechanisms to this synthesis.
N
O
N
O
CH3
H2O
O
CH3
CH3 I+
from cyclohexanone
H+
HOTs
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WWU Chemistry
Another example:
Try to apply the mechanisms to this synthesis.
N
O
CH2 CH CH2 BrH2O
H+
O
CH2 CH CH2
from cyclohexanone
+HOTs
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WWU Chemistry
In each of these reactions, the enamine, In each of these reactions, the enamine, acting as a nucleophile, displaces the halide acting as a nucleophile, displaces the halide ion from the alkyl halide in an Sion from the alkyl halide in an SNN2 process2 process.
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WWU Chemistry
-Alkylation of a Ketone-Alkylation of a Ketone
CH3 CH2 C CH2
O
CH3
N
H CH3I H2O
H+
CH3 CH2 C CH
O
CH3
CH3
HOTs
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WWU Chemistry
-Alkylation of a Ketone-Alkylation of a Ketone
O N
HBr CH2 C O CH2 CH3
O
H2O
H+
O
CH2
COOCH2CH3
HOTs
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WWU Chemistry
Enamine Reactions -- Summary
O N
R R
N
R R
R
O
R
R XR2NH
+
+
H2O
H
HOTs
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WWU Chemistry
The nucleophilic behavior of enamines has been used to The nucleophilic behavior of enamines has been used to prepare deuterium-labelled ketones.prepare deuterium-labelled ketones.
This reaction demonstrates that enamines are basic.
O
N
O
H
N
O O
N
O
D
D
+
1-Morpholinocyclohexane
D3PO4
D2O
0 °C
+
HOTs
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WWU Chemistry
In the previous examples, we have been using In the previous examples, we have been using nitrogen as the nucleophilic atom.nitrogen as the nucleophilic atom.
Reasoning by analogy and using the periodicity that Reasoning by analogy and using the periodicity that we associate with position in the Periodic Table, what we associate with position in the Periodic Table, what would we predict if phosphorus were the would we predict if phosphorus were the nucleophile?nucleophile?
When phosphorus is the nucleophilic atom, the When phosphorus is the nucleophilic atom, the behavior is similar to that of amines, but there are behavior is similar to that of amines, but there are important differences. important differences.
The chief application of phosphorus chemistry in The chief application of phosphorus chemistry in this type of reaction is in the this type of reaction is in the Wittig reactionWittig reaction..
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WWU Chemistry
The Wittig Reaction
+
:..
:_ +
a betaine
+
an ylide
C O
R1
R2
(C6H5)3P C
R4
R3
R2 C
R1
O
C R4
R3
P(C6H5)3
C
R1
R2
C
R4
R3
O P(C6H5)3This is a type of This is a type of condensation condensation reactionreaction -- we use it to “dock” -- we use it to “dock” two large structures together.two large structures together.
This is another example of This is another example of addition-eliminationaddition-elimination..
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WWU Chemistry
Ylide
• A compound or intermediate with both a positive and a negative formal charge on adjacent atoms.
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WWU Chemistry
Resonance in Ylides
+_..
(C6H5)3P C
R
R
(C6H5)3P C
R
R
The ylide is nucleophilic, owing to the negative The ylide is nucleophilic, owing to the negative charge character on carbon (structure on the charge character on carbon (structure on the right).right).
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WWU Chemistry
Typical Solvents
• Ylides are highly reactive with water, alcohols, acids, carbonyl compounds, and esters.
• So, the solvents must exclude these classes of compounds.
• That limits us to hydrocarbons (and perhaps ethers). Toluene and xylene are used frequently.
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WWU Chemistry
Example of a Wittig Reaction
C O C CH2
O P(C6H5)3
C CH2
(C6H5)3P
+ (C6H5)3P=CH2
+ =O
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WWU Chemistry
Mechanism (???): :
slow+
:..
:_
=
+:
..:
_
:..
+
(C6H5)3P C
R4
R3
R1 C
O
R2
R3
P(C6H5)3
R4
C
C
R4
R3(C6H5)3P
R1 C R2
O
R1 C
O
R2
C R3
P(C6H5)3
R4
O
CR1 R2
C
R1
R2
C
R3
R4
O P(C6H5)3
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WWU Chemistry
Preparation of the Ylide
+ (C6H5)3P+
a phosphonium salt
+ "HX"
base
R1 CH
R2
X (C6H5)3P CH R2
R1
X_
(C6H5)3P C
R2
R1
Typical bases:Typical bases:
•NaOCHNaOCH33
•NaHNaH
•LiCLiC44HH99
This reaction is not stereospecific.This reaction is not stereospecific.
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WWU Chemistry
Preparation of Preparation of trans,transtrans,trans-1,4-Diphenyl-1,3-butadiene-1,4-Diphenyl-1,3-butadiene
CH2 Cl + (C6H5)3P: CH2 P(C6H5)3
Cl
NaOCH3
CH P(C6H5)3
C C
H
H
C O
H
C C
H
C C
H
H
H
C C
H
C C
H
H
H
+
trans,trans trans,cis
Major productMajor product Minor productMinor product
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WWU Chemistry
Green Chemistry ApplicationGreen Chemistry ApplicationCH2 Cl + (C6H5)3P: CH2 P(C6H5)3
Cl
K3PO4
CH P(C6H5)3
C C
H
H
C O
H
C C
H
C C
H
H
H
C C
H
C C
H
H
H
+
trans,trans trans,cis
no solvent!
More More grinding!grinding!
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WWU Chemistry
The Wittig Reaction: A Reminder
+
:..
:_ +
a betaine
+
an ylide
C O
R1
R2
(C6H5)3P C
R4
R3
R2 C
R1
O
C R4
R3
P(C6H5)3
C
R1
R2
C
R4
R3
O P(C6H5)3
This is a type of This is a type of condensation condensation reactionreaction -- we use it to “dock” -- we use it to “dock” two large structures together.two large structures together.