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Oxidation of 2-substituted allylsilane to conjugated enal using hypervalent organoiodine compound and synthesis of α-methylen γ-and δ-lactones
Tetrahedron Letters,Vol.24,No.8,pp Printed in Great Britain
OXIDATION
OF 2-SUBSTITUTED
ORGANOIODINE
COMPOUND
0040-4039/83/080777-04$03.00/O 01983 Pergamon Press Ltd.
777-780,1983
ALLYLSILANE
TO CONJUGATED
AND SYNTHESIS
ENAL USING HYPERVALENT
OF a-METHYLENE
Y- AND r;-LACTONES
MasahitoOchiai and Eiichi Fujita* Institute
for Chemical
Research,
Kyoto University,
Masao Arimoto Osaka College
Summary:
2-Substituted
etherate
in dioxane
y- and &lactones
organic
peracids
conjugated
with
Osaka-Fu
580, Japan
iodosobenzene
enals 2 directly
and boron trifluoride
in good yield,
has been little
intermediates
studied. 293 Oxidation
does not seem to be a highly applicable
of allylsilanes
or allylselenides
followed
by oxidative
to give allylalcohols
report a new useful direct oxidation hypervalent
1 on treatment
have been shown to be versatile
however,
desilylation
Matsubara,
from which a-methylene
7 were synthesized.
Allylsilanes oxidation,
afforded
611, Japan
and Hideo Yamaguchi
of Pharmacy,
allylsilanes
Uji, Kyoto-Fu
organoiodine
inorganic
of allylsilanes reaction.3
rearrangement
with
or phenylseleno-
of the resulting
allylsilanes
Their
to ally1 alcohols
Phenylthio-
has been shown to be an effective
of 2-substituted
synthesis.'
allylsulfides
process. 394 We wish to
1 to conjugated
enals 2 with
compound.
C6H51=0
SiMe3
0
BF3-Et20 dioxane 1 Hypervalent
organoiodine
alcohols,
carbonyl
treatment
with
etherate
Representative
compounds,
iodosobenzene
(BF3-Et20)
compounds sulfides, (2 equiv.)
(1 equiv.)6
have been known as mild oxidizing and
ketenes
activated
in dry dioxane
results
are indicated
in Table 1.
In this reaction,
the formation
of iodobenzene
777
has been published.5
by the coordination
afforded
reagents;
conjugated
was usually
oxidation
Allylsilanes
1 on
with boron trifluoride
enals 2 in good yield.
observed
on TLC.8
of
The use of
778
Table
1
Oxidation
of Allylsilanes
to Conjugated
Allylsilaneb
1
Enals with
Conjugated
OAc
To a stirred
71
suspension
of allylsilane
the mixture
was stirred
the mixture
was extracted
Evaporation
conjugated
enal 2.
of the products. the isolated germane obtained
For preparation
instead of dioxane
at room temperature
ice-cooled
aqueous
The extract was washed
TLC (hexane-ethyl
acetate,
in
NaHC03
with brine and
5 Q 7
: 1) pure
of la and lb-le, see ref. 7 and 6, respectively. -._ __ _I
afforded
a complex mixture
of the reaction
bond was kept intact
3 was also oxidized
AcO
was observed: C6H5AGeMe3
(see le + 2e). Allyl.. __
in a same manner,
3
but enal 2d was -...
in only 30% yield.
The activation be very important, reaction
b)
( 2 equiv.) in dry dioxane
dropwise
After adding
with ether.
gave after preparative
Chemoselectivity
double
(1 equiv.)
for 12 hr.
Isolated yield.
ether as the solvent
1 and iodosobenzene
of 1) was added BF3-Et20
solution,
c)
Yield, %'
OAc
nitrogen;
dried.
2
II
OAc
(ca. 250 ml/mm01
Enal
and BF3-Et20a
OAc SiMe3
a)
Iodosobenzene
of iodosobenzene because
by the coordination
the oxidation
sequence
shown in Scheme
The first step of the reaction a transient
intermediate,
of iodosobenzene Conjugated
were required.'
to give 5.
may be the formation
Decomposition
enals 2 were smoothly
BF3-Et20.
In the
In view of these observations,
1 seems to be plausible.
which will be attacked 11
to its oxygen atom seems to
of 1 does not proceed without
more than 2 equiv. of iodosobenzene
the reaction
of BF3-Et20
of the highly reactive
by the nucleophilic
of 5 produces
coverted
enal 2.
species
41° as
oxygen of another molecule
12
to cl-methylene y- and b-lactones
7. 4b
The
779
C6H51=0
@ 0dC6H5
-C6H51
5
H
Scheme Table 2
Synthesis
of a-Methylene
a,B-Unsaturated
Enal
?b
y- and 6-Lactones
from Conjugated
Yield, %
y- and &Lactone
Acid
eCo2H
1
6b
83
6_c
99
Enals
Yield, %
7b
72
7d __
59
OAc --. 2c
w 02H
2!
C6H5&
C02H
6d .--
91
6:
a'
AcO 2_'
MCO?H
aldehyde
2b on treatment
2-butene,"
by the treatment
7b in 72% yield. ..-
Thus we developed 1, yielding
in the presence
gave cc,B-unsaturated acid 6b in 83% yield. _-.
MeOH) followed 6-lactone
with sodium chlorite
conjugated
a new convenient
of the lactone method
(a) H. Sakurai,
Pure Appl.
1979, 761; (c) M. Ochiai lll_ 2.
J. M. Reuter, A. Sinha,
3.
(a) I. Fleming
Chem.,
hydrolysis
in pyridine
synthesis
for the oxidation
enals 2, by using hypervalent References
1.
Alkaline
with dicyclohexylcarbodiimide
The results
of a chlorine
afforded
of 2-substituted
the desired
in Table 2. allylsilanes
compound.
(b) T. H. Chan and I. Fleming, Synthesis,
and E. Fujita, J. Synth. Org. &em.,
and B.-W. Au-Yeung,
of 6b (NaOH/H20/ __
are summarized
organoiodine
2-methyl-
and Notes
I_ 54, 1 (1982);
and R. G. Salomon,
scavenger,
Jpn., 40, 508 (1982). -_
J. Org. &em., 43, 2438 (1978).
Tetrahedron,
I_
3_7, Supplement,
J. Carter and I. Fleming, J. Chem. Sot., Chem. Comm., 1976, 679; VU__
No. 9, 13 (1981);
(c) Epoxidations
(b) M. of
780
allylsilanes
are reported
P. F. Hudrlik
4.
and G. P. Withers,
(a) H. Nishiyama,
K. Itagaki,
(b) Cf. H. Nishiyama, 5.
(a) A. Varvoglis, (1966);
to give poorly characterized Tetrahedron
K. Sakuta,
H. Yokoyama,
Chem. Sot. Rev.,
(c) R. B. Sandin, ibid.,
mixtures
of cleavage
procudts:
Lett., ____ 1976, 29.
and K. Itoh, Tetrahedron
S. Narimatsu,
and K. Itoh, ibid.,
10, 377 (1981); __
32, 249 (1943): __
Lett., i??,5285 (1981); 23, 1267 (1982). __
(b) D. F. Banks, Chem. Ileu., 66, 243 __
(d) T. Takaya,
H. Enyo, and E. Imoto, BUZZ.
Chem. Sot. Jpn., 41, 1032 (1968).
__
6.
M. Ochiai,
E. Fujita, M. Arimoto,
and H. Yamaguchi,
J. Chem. Sot., Chem. Corn., in press.
7.
M. Ochiai,
E. Fujita, M. Arimoto,
and H. Yamaguchi,
&em.
8.
In the
oxidation
of allylsilane
la, iodobenzene _-_
Pham. BUZZ., in press.
was obtained
in 72% yield
(GLC yield)
based
on iodosobenzene. 9.
Allylsilane
la on treatment 5_
with
1 equiv. of iodosobenzene
gave conjugated
enal 2a in only -...
33% yield. 10.
Umemoto alkenes,
11.
amd co-workers arenes,
recently
and thiols with
S. Nakayama,
and 0. Miyano,
The reaction
initiated
reported
the useful
perfluoroalkylations
(perfluoroalkyl)phenyliodonium
(a) J. Wicha, A. Zarecki,
3635; (b) R. M. Moriarty,
salts: T. Umemoto,
23, 1471 (1982) and references Tetrahedron Lett., __
by the attack of oxygen of iodosobenzene
atoms has been reported:
of carbanions,
S. C. Gupta,
to electron
cited therein.
deficient
and M. Kocor, Tetrahedron
H. Hu, D. R. Berenschot,
Y. Kuriu,
carbon
Lett., ..___ 1973,
and K. B. White, J. Am.
Chem. Sot., ___ 103, 686 (1981). 12.
The partial out.
participation
of the following
Water may be produced
alternative
by the condensation
reaction
sequence
of trimethylsilanol
cannot be ruled
during
the reaction.
OH BF3
C6H51=0 OH
-C6H51
F
R
0 BF3-Et20
R
I IC6H5 -+
2
A/
-Me3SiOH
In fact ally1 alcohol (1 equiv.)
8 on treatment
and BF3-Et20
(1 equiv.)
with
iodosobenzene
in dioxane
OH
at room OAc
temperature 13.
afforded
enal 2b in 59% yield. __
B. S. Bal, W. E. Childers,
and H. W. Pinnick,
(Received in Japan 8 November 1982)
8
Tetrahedron, 37, 2091 (1981).
OXIDATION
OF 2-SUBSTITUTED
ORGANOIODINE
COMPOUND
0040-4039/83/080777-04$03.00/O 01983 Pergamon Press Ltd.
777-780,1983
ALLYLSILANE
TO CONJUGATED
AND SYNTHESIS
ENAL USING HYPERVALENT
OF a-METHYLENE
Y- AND r;-LACTONES
MasahitoOchiai and Eiichi Fujita* Institute
for Chemical
Research,
Kyoto University,
Masao Arimoto Osaka College
Summary:
2-Substituted
etherate
in dioxane
y- and &lactones
organic
peracids
conjugated
with
Osaka-Fu
580, Japan
iodosobenzene
enals 2 directly
and boron trifluoride
in good yield,
has been little
intermediates
studied. 293 Oxidation
does not seem to be a highly applicable
of allylsilanes
or allylselenides
followed
by oxidative
to give allylalcohols
report a new useful direct oxidation hypervalent
1 on treatment
have been shown to be versatile
however,
desilylation
Matsubara,
from which a-methylene
7 were synthesized.
Allylsilanes oxidation,
afforded
611, Japan
and Hideo Yamaguchi
of Pharmacy,
allylsilanes
Uji, Kyoto-Fu
organoiodine
inorganic
of allylsilanes reaction.3
rearrangement
with
or phenylseleno-
of the resulting
allylsilanes
Their
to ally1 alcohols
Phenylthio-
has been shown to be an effective
of 2-substituted
synthesis.'
allylsulfides
process. 394 We wish to
1 to conjugated
enals 2 with
compound.
C6H51=0
SiMe3
0
BF3-Et20 dioxane 1 Hypervalent
organoiodine
alcohols,
carbonyl
treatment
with
etherate
Representative
compounds,
iodosobenzene
(BF3-Et20)
compounds sulfides, (2 equiv.)
(1 equiv.)6
have been known as mild oxidizing and
ketenes
activated
in dry dioxane
results
are indicated
in Table 1.
In this reaction,
the formation
of iodobenzene
777
has been published.5
by the coordination
afforded
reagents;
conjugated
was usually
oxidation
Allylsilanes
1 on
with boron trifluoride
enals 2 in good yield.
observed
on TLC.8
of
The use of
778
Table
1
Oxidation
of Allylsilanes
to Conjugated
Allylsilaneb
1
Enals with
Conjugated
OAc
To a stirred
71
suspension
of allylsilane
the mixture
was stirred
the mixture
was extracted
Evaporation
conjugated
enal 2.
of the products. the isolated germane obtained
For preparation
instead of dioxane
at room temperature
ice-cooled
aqueous
The extract was washed
TLC (hexane-ethyl
acetate,
in
NaHC03
with brine and
5 Q 7
: 1) pure
of la and lb-le, see ref. 7 and 6, respectively. -._ __ _I
afforded
a complex mixture
of the reaction
bond was kept intact
3 was also oxidized
AcO
was observed: C6H5AGeMe3
(see le + 2e). Allyl.. __
in a same manner,
3
but enal 2d was -...
in only 30% yield.
The activation be very important, reaction
b)
( 2 equiv.) in dry dioxane
dropwise
After adding
with ether.
gave after preparative
Chemoselectivity
double
(1 equiv.)
for 12 hr.
Isolated yield.
ether as the solvent
1 and iodosobenzene
of 1) was added BF3-Et20
solution,
c)
Yield, %'
OAc
nitrogen;
dried.
2
II
OAc
(ca. 250 ml/mm01
Enal
and BF3-Et20a
OAc SiMe3
a)
Iodosobenzene
of iodosobenzene because
by the coordination
the oxidation
sequence
shown in Scheme
The first step of the reaction a transient
intermediate,
of iodosobenzene Conjugated
were required.'
to give 5.
may be the formation
Decomposition
enals 2 were smoothly
BF3-Et20.
In the
In view of these observations,
1 seems to be plausible.
which will be attacked 11
to its oxygen atom seems to
of 1 does not proceed without
more than 2 equiv. of iodosobenzene
the reaction
of BF3-Et20
of the highly reactive
by the nucleophilic
of 5 produces
coverted
enal 2.
species
41° as
oxygen of another molecule
12
to cl-methylene y- and b-lactones
7. 4b
The
779
C6H51=0
@ 0dC6H5
-C6H51
5
H
Scheme Table 2
Synthesis
of a-Methylene
a,B-Unsaturated
Enal
?b
y- and 6-Lactones
from Conjugated
Yield, %
y- and &Lactone
Acid
eCo2H
1
6b
83
6_c
99
Enals
Yield, %
7b
72
7d __
59
OAc --. 2c
w 02H
2!
C6H5&
C02H
6d .--
91
6:
a'
AcO 2_'
MCO?H
aldehyde
2b on treatment
2-butene,"
by the treatment
7b in 72% yield. ..-
Thus we developed 1, yielding
in the presence
gave cc,B-unsaturated acid 6b in 83% yield. _-.
MeOH) followed 6-lactone
with sodium chlorite
conjugated
a new convenient
of the lactone method
(a) H. Sakurai,
Pure Appl.
1979, 761; (c) M. Ochiai lll_ 2.
J. M. Reuter, A. Sinha,
3.
(a) I. Fleming
Chem.,
hydrolysis
in pyridine
synthesis
for the oxidation
enals 2, by using hypervalent References
1.
Alkaline
with dicyclohexylcarbodiimide
The results
of a chlorine
afforded
of 2-substituted
the desired
in Table 2. allylsilanes
compound.
(b) T. H. Chan and I. Fleming, Synthesis,
and E. Fujita, J. Synth. Org. &em.,
and B.-W. Au-Yeung,
of 6b (NaOH/H20/ __
are summarized
organoiodine
2-methyl-
and Notes
I_ 54, 1 (1982);
and R. G. Salomon,
scavenger,
Jpn., 40, 508 (1982). -_
J. Org. &em., 43, 2438 (1978).
Tetrahedron,
I_
3_7, Supplement,
J. Carter and I. Fleming, J. Chem. Sot., Chem. Comm., 1976, 679; VU__
No. 9, 13 (1981);
(c) Epoxidations
(b) M. of
780
allylsilanes
are reported
P. F. Hudrlik
4.
and G. P. Withers,
(a) H. Nishiyama,
K. Itagaki,
(b) Cf. H. Nishiyama, 5.
(a) A. Varvoglis, (1966);
to give poorly characterized Tetrahedron
K. Sakuta,
H. Yokoyama,
Chem. Sot. Rev.,
(c) R. B. Sandin, ibid.,
mixtures
of cleavage
procudts:
Lett., ____ 1976, 29.
and K. Itoh, Tetrahedron
S. Narimatsu,
and K. Itoh, ibid.,
10, 377 (1981); __
32, 249 (1943): __
Lett., i??,5285 (1981); 23, 1267 (1982). __
(b) D. F. Banks, Chem. Ileu., 66, 243 __
(d) T. Takaya,
H. Enyo, and E. Imoto, BUZZ.
Chem. Sot. Jpn., 41, 1032 (1968).
__
6.
M. Ochiai,
E. Fujita, M. Arimoto,
and H. Yamaguchi,
J. Chem. Sot., Chem. Corn., in press.
7.
M. Ochiai,
E. Fujita, M. Arimoto,
and H. Yamaguchi,
&em.
8.
In the
oxidation
of allylsilane
la, iodobenzene _-_
Pham. BUZZ., in press.
was obtained
in 72% yield
(GLC yield)
based
on iodosobenzene. 9.
Allylsilane
la on treatment 5_
with
1 equiv. of iodosobenzene
gave conjugated
enal 2a in only -...
33% yield. 10.
Umemoto alkenes,
11.
amd co-workers arenes,
recently
and thiols with
S. Nakayama,
and 0. Miyano,
The reaction
initiated
reported
the useful
perfluoroalkylations
(perfluoroalkyl)phenyliodonium
(a) J. Wicha, A. Zarecki,
3635; (b) R. M. Moriarty,
salts: T. Umemoto,
23, 1471 (1982) and references Tetrahedron Lett., __
by the attack of oxygen of iodosobenzene
atoms has been reported:
of carbanions,
S. C. Gupta,
to electron
cited therein.
deficient
and M. Kocor, Tetrahedron
H. Hu, D. R. Berenschot,
Y. Kuriu,
carbon
Lett., ..___ 1973,
and K. B. White, J. Am.
Chem. Sot., ___ 103, 686 (1981). 12.
The partial out.
participation
of the following
Water may be produced
alternative
by the condensation
reaction
sequence
of trimethylsilanol
cannot be ruled
during
the reaction.
OH BF3
C6H51=0 OH
-C6H51
F
R
0 BF3-Et20
R
I IC6H5 -+
2
A/
-Me3SiOH
In fact ally1 alcohol (1 equiv.)
8 on treatment
and BF3-Et20
(1 equiv.)
with
iodosobenzene
in dioxane
OH
at room OAc
temperature 13.
afforded
enal 2b in 59% yield. __
B. S. Bal, W. E. Childers,
and H. W. Pinnick,
(Received in Japan 8 November 1982)
8
Tetrahedron, 37, 2091 (1981).