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The revised structure of isoincensole-oxide
Tetrahedron Letters No
pp 3783 -3786, 1973
39,
THE
REVISED
STRUCTURE
M.L.Forcellese Institute
(Received The from to
zsolatlon
FrankIncense
I, on the 1)
converted 11) epoxlde
ring
the
between
at the during
was, the
free
take
place
place
when
the
usual
are
allowed We
(II-acetate) of
lsomerlc
(I-acetate), from
an
examined
reacts
mth
showed sample
none
of
TLC of
room wluch
on
C
A was
ring
are
when
3a
temp.
I. 3783
(II)
20H34’3 asslgned
of
not
the
1s
(NPA). the
show
Its
intramolecular
between
Intramolecular
(formlng
the
acid
&d of
resin,
rea-
epoxlde
and
wasruledout.
reactlon,
a tetrahydrofuran
Such
treated
abnormal
with
peracldsJ,
corresponhng
ring),
reactlons
0-acetyl
take
whereas derlvatlvl
. as follows. (solvent
appeared
comparlng
of the
presence
proton
another
posslblllty,
at
of
epoxldatlon.
reagents
this NPA
by
that
the
posslblllty
ring)
epoxlde the
for
epoxltic the
reactlon
us2
component
obtalned
supposed
occurs
same
1973) &terpene
vvlth p-nItroperbenzolc
was
hydroxyoleflns
with
monooxldes
to
of
Rome
Structure
dzterpenlc
oxygenated
the
a macrocycllc
reported'.
posltlon,
and
now
authentic
the
course
reactlon
react
as
and
of
conslderatlons
evidence
suggested
appropriate
to
previously
epoxrdatlon
hydroxyl
- Unlverslty
(I),
abundant
a larger
In the
epoxldatlon
have
I,
C.Santarell1
Chemistry
I by epoxldatlon
the
however,
could
most
expected
(glvlng
ISOINCENSOLE-OXIDE
1973,acceptedforpubhcatlon15 August
follolrnng
chemical
compound
bond
the
no
been
the
Into
In
occurrIng
It
yield
sIgna
double
has
(II),
low
Organic
Isolncensole-oxide
of the
Although
resonance ctlon
basis
In
of
resin,
Incensole
OF
Printed in Great Bntaln
R.Nlcolettl
m UK 10 August
of
Pergamon Press
the
to
The
011~
lncensole
aceta
CHCl
), glvlng mainly a mlxtl 3 be Isolncensole-oxide acetate
nuxture
with
I-acetate,
prepared
3784
No 39
The the
less
rlson
mixture polar
mth
an
A more
was
compound
The
abundant
mass
one
spectrometry)
formula
C
The
chromatography
as Incensole-oxide
a new
ldentlcal
an 0x1,
elemental NMR
column
on
acetate
slllca-gel:
(IV),
by
cornpa
.
after
show
1s
and
22H3604*
4
sample
(which
by
ldentlfled
fraction,
polar
compounds
fractionated
was
authentic
lsomerlc more
then
which
column mass
decomposes
analysis
spectrum,
chromatography, spectra)
are
flttlng
in
on
afforded
approximate
tistlllatlon,
U-I agreement
structure
mol.
vvlth the
III,
shows
two
ratlo
95.5.
wt.
(from
molecular
the
following
signals
(3H,d,J = 7Hz)
0.90
and
1.30 (3H,s) (CH3-C-O),
(3H,d,J = 7Hz)
0.98
(I-propyl),
1.12
(3H,s) (CH3-C-O),
1.61 (3H) (cH3-C=), 2.00 (3H) (CH3COO), 2.96 (lH,broad
(-c;?c), 4.91 (lH,broad
(-cH-OCOCH~),
d)
5.29 (1H, broad
slgnal)
showed
two
(HC=C)
(5
d)
,I*
CDC13). A comparison are
they
&fferent.
spectrum
of
of
III
show
I-acetate
Hnth
I-acetate
slmllar,
exhlblts
but
the
1.02 (SH,d,J = 7Hz) (I-propyl);
Careful cannot or
5.91 (lH, broad
(CH-~C~CH~); alkaline
be purlfled
by treatment
mth
hydrolysis
unth
the
usual
p-nltrobenzolc
ldentlcal
following
1.08
(3H) (cH3-c=), 2.04 (3H) (CH3-COO), sIgnal)
not
of
that
the mass
signal) III
affords
techniques.
acid
(CH=C)
by
at room
spectra,
(CH-O),
(6,
CDC13).
in
an unstable
temp.
the
NMR
= 7Hz) and
1.10 (3H,s) (CH3-C-O),
slgnal)
column
derlvatlves and
0.89 (SH,d,J
signals.
(3H,s) (cH3-C-O), 4.24 (lH, broad
acetyl
solId
4.86 (lH, broad
compound,
chromatography (solvent
1.62
CHCl
on
3
) ths
whch
szllca, solld
No. 39
1s
3785
slowly
(m.p.,
converted
NMR
Into
spectrum)
On the
basis
censole-oxide
(I)
to
another
(TLC),
which
proved
to
the
experiments
described
corresponhng
above
we must
now
acetate)
the
followxng
R = H
Since
the
It
hydroxyl rate
between
has
been
enhances
of the
simple
lncensole
and
shown the
that,
rate
of
epoxldatxon NPA,
lea&ng
In
certain
formatlon reactlon to
I,
3a
, we
could
cyclic
favour
for
(I-acetate)
the ether
the
presence
In
Idea
formatlon
Intramolecular
of
reactlon
I, of
by hydrolyses the
free
of
alcohol,
III
that
the
be
tiagrammatlcally
and
subsequent
acid-catalysed
represented
as follows
can
be
of
comparzxson
a to
reactlon
represented
follows
The
xsoln
(I)
hydroxyoleflns, of the
propose
structure
R = COCHg
free
be ldentlcal
I.
of the (and
compound
as
No 39
3786
The -oxide
presence
(I)
accounts
of two for
tetrahydrofuran
all
Its
rings
chemxcal
and
In the
molecule
spectroscopic
of
Isolncensole-
propertles
previously
reported'.
Acknowledgments
- We
are
xndebted
to the
Italian
C.N.R.
for
flnanclal
suppori
References 1
2
M.L.
We
Forcellese,
are
grateful
R.
Nlcolettl
and
to Professor
G.
U. Petrossl,
Tetrahedron
Bert.1 (Unlverslty
of
28,
Plsa,
325
Italy)
(1972).
for
this
suggestlon.
3
a) and
H.B. M.
-Canet,
4
R.
Henbest
and
B. Nxcholls,
Mousseron-&net, C. Levellols
Nlcolettl
and
M.L.
Bull. and
H.
J.
Chem.Soc.
Soc.Chxm.
Huerre,
Forcellese,
IbId.
Fr.
221
1751
658
Tetrahedron
(1959), (1969),
b)
c)
(1966).
3,
6519
(1968).
J.C. M.
Lanet
Mousseron-
pp 3783 -3786, 1973
39,
THE
REVISED
STRUCTURE
M.L.Forcellese Institute
(Received The from to
zsolatlon
FrankIncense
I, on the 1)
converted 11) epoxlde
ring
the
between
at the during
was, the
free
take
place
place
when
the
usual
are
allowed We
(II-acetate) of
lsomerlc
(I-acetate), from
an
examined
reacts
mth
showed sample
none
of
TLC of
room wluch
on
C
A was
ring
are
when
3a
temp.
I. 3783
(II)
20H34’3 asslgned
of
not
the
1s
(NPA). the
show
Its
intramolecular
between
Intramolecular
(formlng
the
acid
&d of
resin,
rea-
epoxlde
and
wasruledout.
reactlon,
a tetrahydrofuran
Such
treated
abnormal
with
peracldsJ,
corresponhng
ring),
reactlons
0-acetyl
take
whereas derlvatlvl
. as follows. (solvent
appeared
comparlng
of the
presence
proton
another
posslblllty,
at
of
epoxldatlon.
reagents
this NPA
by
that
the
posslblllty
ring)
epoxlde the
for
epoxltic the
reactlon
us2
component
obtalned
supposed
occurs
same
1973) &terpene
vvlth p-nItroperbenzolc
was
hydroxyoleflns
with
monooxldes
to
of
Rome
Structure
dzterpenlc
oxygenated
the
a macrocycllc
reported'.
posltlon,
and
now
authentic
the
course
reactlon
react
as
and
of
conslderatlons
evidence
suggested
appropriate
to
previously
epoxrdatlon
hydroxyl
- Unlverslty
(I),
abundant
a larger
In the
epoxldatlon
have
I,
C.Santarell1
Chemistry
I by epoxldatlon
the
however,
could
most
expected
(glvlng
ISOINCENSOLE-OXIDE
1973,acceptedforpubhcatlon15 August
follolrnng
chemical
compound
bond
the
no
been
the
Into
In
occurrIng
It
yield
sIgna
double
has
(II),
low
Organic
Isolncensole-oxide
of the
Although
resonance ctlon
basis
In
of
resin,
Incensole
OF
Printed in Great Bntaln
R.Nlcolettl
m UK 10 August
of
Pergamon Press
the
to
The
011~
lncensole
aceta
CHCl
), glvlng mainly a mlxtl 3 be Isolncensole-oxide acetate
nuxture
with
I-acetate,
prepared
3784
No 39
The the
less
rlson
mixture polar
mth
an
A more
was
compound
The
abundant
mass
one
spectrometry)
formula
C
The
chromatography
as Incensole-oxide
a new
ldentlcal
an 0x1,
elemental NMR
column
on
acetate
slllca-gel:
(IV),
by
cornpa
.
after
show
1s
and
22H3604*
4
sample
(which
by
ldentlfled
fraction,
polar
compounds
fractionated
was
authentic
lsomerlc more
then
which
column mass
decomposes
analysis
spectrum,
chromatography, spectra)
are
flttlng
in
on
afforded
approximate
tistlllatlon,
U-I agreement
structure
mol.
vvlth the
III,
shows
two
ratlo
95.5.
wt.
(from
molecular
the
following
signals
(3H,d,J = 7Hz)
0.90
and
1.30 (3H,s) (CH3-C-O),
(3H,d,J = 7Hz)
0.98
(I-propyl),
1.12
(3H,s) (CH3-C-O),
1.61 (3H) (cH3-C=), 2.00 (3H) (CH3COO), 2.96 (lH,broad
(-c;?c), 4.91 (lH,broad
(-cH-OCOCH~),
d)
5.29 (1H, broad
slgnal)
showed
two
(HC=C)
(5
d)
,I*
CDC13). A comparison are
they
&fferent.
spectrum
of
of
III
show
I-acetate
Hnth
I-acetate
slmllar,
exhlblts
but
the
1.02 (SH,d,J = 7Hz) (I-propyl);
Careful cannot or
5.91 (lH, broad
(CH-~C~CH~); alkaline
be purlfled
by treatment
mth
hydrolysis
unth
the
usual
p-nltrobenzolc
ldentlcal
following
1.08
(3H) (cH3-c=), 2.04 (3H) (CH3-COO), sIgnal)
not
of
that
the mass
signal) III
affords
techniques.
acid
(CH=C)
by
at room
spectra,
(CH-O),
(6,
CDC13).
in
an unstable
temp.
the
NMR
= 7Hz) and
1.10 (3H,s) (CH3-C-O),
slgnal)
column
derlvatlves and
0.89 (SH,d,J
signals.
(3H,s) (cH3-C-O), 4.24 (lH, broad
acetyl
solId
4.86 (lH, broad
compound,
chromatography (solvent
1.62
CHCl
on
3
) ths
whch
szllca, solld
No. 39
1s
3785
slowly
(m.p.,
converted
NMR
Into
spectrum)
On the
basis
censole-oxide
(I)
to
another
(TLC),
which
proved
to
the
experiments
described
corresponhng
above
we must
now
acetate)
the
followxng
R = H
Since
the
It
hydroxyl rate
between
has
been
enhances
of the
simple
lncensole
and
shown the
that,
rate
of
epoxldatxon NPA,
lea&ng
In
certain
formatlon reactlon to
I,
3a
, we
could
cyclic
favour
for
(I-acetate)
the ether
the
presence
In
Idea
formatlon
Intramolecular
of
reactlon
I, of
by hydrolyses the
free
of
alcohol,
III
that
the
be
tiagrammatlcally
and
subsequent
acid-catalysed
represented
as follows
can
be
of
comparzxson
a to
reactlon
represented
follows
The
xsoln
(I)
hydroxyoleflns, of the
propose
structure
R = COCHg
free
be ldentlcal
I.
of the (and
compound
as
No 39
3786
The -oxide
presence
(I)
accounts
of two for
tetrahydrofuran
all
Its
rings
chemxcal
and
In the
molecule
spectroscopic
of
Isolncensole-
propertles
previously
reported'.
Acknowledgments
- We
are
xndebted
to the
Italian
C.N.R.
for
flnanclal
suppori
References 1
2
M.L.
We
Forcellese,
are
grateful
R.
Nlcolettl
and
to Professor
G.
U. Petrossl,
Tetrahedron
Bert.1 (Unlverslty
of
28,
Plsa,
325
Italy)
(1972).
for
this
suggestlon.
3
a) and
H.B. M.
-Canet,
4
R.
Henbest
and
B. Nxcholls,
Mousseron-&net, C. Levellols
Nlcolettl
and
M.L.
Bull. and
H.
J.
Chem.Soc.
Soc.Chxm.
Huerre,
Forcellese,
IbId.
Fr.
221
1751
658
Tetrahedron
(1959), (1969),
b)
c)
(1966).
3,
6519
(1968).
J.C. M.
Lanet
Mousseron-