21.8 barbiturates. barbituric acid is made from diethyl malonate and urea h2ch2ch2ch2co coch 2 ch...
DESCRIPTION
H2CH2CH2CH2CO O + C H2NH2NH2NH2N O H2NH2NH2NH2N 1. NaOCH 2 CH 3 2. H + H2CH2CH2CH2COC C O C N O N H H (72-78%) Barbituric acid is made from diethyl malonate and ureaTRANSCRIPT
21.821.8BarbituratesBarbiturates
Barbituric acid Barbituric acid is made from is made from diethyl diethyl malonate and malonate and ureaurea
HH22CC
OO
COCHCOCH22CHCH33
COCHCOCH22CHCH33
OO
++ CC
HH22NN
OO
HH22NN
HH22CC
OO
COCHCOCH22CHCH33
COCHCOCH22CHCH33
OO
++ CC
HH22NN
OO
HH22NN
1. NaOCH1. NaOCH22CHCH33
2. H2. H++HH22CC
OO
CC
CC
OO
CC
NN
OO
NN
HH
HH
(72-78%)(72-78%)
Barbituric acid Barbituric acid is made from is made from diethyl diethyl malonate and malonate and ureaurea
HH22CC
OO
COCHCOCH22CHCH33
COCHCOCH22CHCH33
OO
++ CC
HH22NN
OO
HH22NN
1. NaOCH1. NaOCH22CHCH33
2. H2. H++
OO
OONN
OO
NN
HH
HH
(72-78%)(72-78%)
Barbituric acid Barbituric acid is made from is made from diethyl diethyl malonate and malonate and ureaurea
Substituted derivatives of barbituric acid are madeSubstituted derivatives of barbituric acid are madefrom alkylated derivatives of diethyl malonatefrom alkylated derivatives of diethyl malonate
HH22CC
OO
COCHCOCH22CHCH33
COCHCOCH22CHCH33
OO
1. 1. RRX,X,NaOCHNaOCH22CHCH33
2. 2. R'R'X,X,NaOCHNaOCH22CHCH33
CC
OO
COCHCOCH22CHCH33
COCHCOCH22CHCH33
OO
RR
R'R'
Substituted derivatives of barbituric acid are madeSubstituted derivatives of barbituric acid are madefrom alkylated derivatives of diethyl malonatefrom alkylated derivatives of diethyl malonate
OO
OONN
OONN
HH
HHRR
R'R'CC
OO
COCHCOCH22CHCH33
COCHCOCH22CHCH33
OO
RR
R'R'
(H(H22N)N)22CC OO
ExamplesExamples
OO
OONN
OONN
HH
HHCHCH33CHCH22
CHCH33CHCH22
5,5-Diethylbarbituric acid5,5-Diethylbarbituric acid(barbital; Veronal)(barbital; Veronal)
ExamplesExamples
OO
OONN
OONN
HH
HH
CHCH33CHCH22
5-Ethyl-5-(1-methylbutyl)barbituric acid5-Ethyl-5-(1-methylbutyl)barbituric acid(pentobarbital; Nembutal)(pentobarbital; Nembutal)
CHCH33CHCH22CHCH22CHCH
HH33CC
ExamplesExamples
OO
OONN
OONN
HH
HH
5-Allyl-5-(1-methylbutyl)barbituric acid5-Allyl-5-(1-methylbutyl)barbituric acid(secobarbital; Seconal)(secobarbital; Seconal)
CHCH33CHCH22CHCH22CHCH
HH33CC
CHCHCHCH22HH22CC
21.921.9Michael Additions of Stabilized Michael Additions of Stabilized
AnionsAnions
Stabilized AnionsStabilized Anions The anions The anions derived by derived by deprotonation of deprotonation of -keto esters -keto esters and diethyl and diethyl malonate are malonate are weak bases.weak bases.Weak bases Weak bases react with react with ,,--unsaturated unsaturated carbonyl carbonyl compounds by compounds by conjugate conjugate addition.addition.
CCCC
CCOCHOCH22CHCH33
HH
OO OO
••••––HH33CC
CCCC
CCOCHOCH22CHCH33
HH
OO OO
CHCH33CHCH22OO••••
––
ExampleExample
OO OO
CHCH33CHCH22OCCHOCCH22COCHCOCH22CHCH33 ++ HH22CC CHCCHCHCCH33
OO
ExampleExample
KOH, ethanolKOH, ethanol
OO OO
CHCH33CHCH22OCCHOCCH22COCHCOCH22CHCH33
(85%)(85%)
++ HH22CC CHCCHCHCCH33
OO
CHCH22CHCH22CCHCCH33
OO OO
CHCH33CHCH22OCCHCOCHOCCHCOCH22CHCH33
OO
ExampleExample
1. KOH, ethanol-water1. KOH, ethanol-water
CHCH22CHCH22CCHCCH33
OO OO
CHCH33CHCH22OCCHCOCHOCCHCOCH22CHCH33
OO
2. H2. H++
3. heat3. heat
CHCH33CCHCCH22CHCH22CHCH22COHCOH
OOOO
(42%)(42%)
21.1021.10-Deprotonation of Carbonyl -Deprotonation of Carbonyl
CompoundsCompoundsby Lithium Dialkylamidesby Lithium Dialkylamides
Deprotonation of Simple EstersDeprotonation of Simple Esters
Ethyl acetoacetate (pKa ~11) and diethyl Ethyl acetoacetate (pKa ~11) and diethyl malonate (pKa ~13) are completely malonate (pKa ~13) are completely deprotonated by alkoxide bases.deprotonated by alkoxide bases.Simple esters (such as ethyl acetate) are not Simple esters (such as ethyl acetate) are not completely deprotonated, the enolate reacts completely deprotonated, the enolate reacts with the original ester, and Claisen with the original ester, and Claisen condensation occurs.condensation occurs.Are there bases strong enough to completely Are there bases strong enough to completely deprotonate simple esters, giving ester enolates deprotonate simple esters, giving ester enolates quantitatively?quantitatively?
Lithium diisopropylamideLithium diisopropylamide
Lithium dialkylamides are strong bases (just as Lithium dialkylamides are strong bases (just as NaNHNaNH22 is a very strong base). is a very strong base).
Lithium diisopropylamide is a strong base, but Lithium diisopropylamide is a strong base, but because it is sterically hindered, does not add to because it is sterically hindered, does not add to carbonyl groups.carbonyl groups.
LiLi++ CC NN CC HHHH
CHCH33
CHCH33
CHCH33
CHCH33
••••••••
––
Lithium diisopropylamide (LDA)Lithium diisopropylamide (LDA)
Lithium diisopropylamide converts simple esters Lithium diisopropylamide converts simple esters to the corresponding enolate.to the corresponding enolate.
CHCH33CHCH22CHCH22COCHCOCH33
OO
++
ppKKaa ~ 22 ~ 22
LiN[CH(CHLiN[CH(CH33))22]]22
CHCH33CHCH22CHCOCHCHCOCH33
OO
++ HN[CH(CHHN[CH(CH33))22]]22••••
–– ++ LiLi++
ppKKaa ~ 36 ~ 36
Lithium diisopropylamide (LDA)Lithium diisopropylamide (LDA)
Enolates generated from esters and LDA can be Enolates generated from esters and LDA can be alkylated.alkylated.
CHCH33CHCH22CHCOCHCHCOCH33
OO
CHCH33CHCH22CHCOCHCHCOCH33
OO
••••
––
CHCH33CHCH22IICHCH22CHCH33
(92%)(92%)
Aldol addition of ester enolatesAldol addition of ester enolates
Ester enolates undergo aldol addition to Ester enolates undergo aldol addition to aldehydes and ketones.aldehydes and ketones.
CHCH33COCHCOCH22CHCH33
OO1. LiNR1. LiNR22, THF, THF
2. 2. (CH(CH33))22CC OO3. H3. H33OO++
CCHH33CC
CHCH33
HOHO
CHCH22COCHCOCH22CHCH33
OO
(90%)(90%)
Ketone EnolatesKetone Enolates
Lithium diisopropylamide converts ketones Lithium diisopropylamide converts ketones quantitatively to their enolates.quantitatively to their enolates.
CHCH33CHCH22CC(CHCC(CH33))33
OO1. LDA, THF1. LDA, THF
2. 2. CHCH33CHCH22CHCH OO3. H3. H33OO++
CHCH33CHCC(CHCHCC(CH33))33
OO
HOCHCHHOCHCH22CHCH33(81%)(81%)