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Isolation of new isoprenyl alcohols from silkworm feces
Tetrahedron Letters N0.49, Printed in Great Britain.
IEOLATION
3F NEW
pp. 6209-6213,
ISOPRENYL
1966.
ALCOHOLS
Perwon
FROM
fieae
SILKWORM
Ltd.
FECES
Hideaki Fukawa, Yaeaehi Toyods Toru Shimisu. and Yaeao Yurohsehi Central Laboratory
of
Nisshin Flour Milling Co.,
Ohi, Irumagun. Saitama, Japan (Received 28 July 1966;
New pOlyieOpreny1
in revised
form 29 September 1966)
alcohola have beer, isolated from the unesponi-
fiable matter of silkworm (Bonbyx mori L.) feces. their eubetances ere in agreement with structure contain cl6 double bonde). undecaisoprenol-1 From the above unsaponifiable
Structural data on I
(n-11
and 12. which
and dodecaisoprenol-l.
matter. presence
Of
s01anes01(1-4)(n-9,
all trane form) is now evident, aleo. CH3
I HfCH+Z-CH-CH&OH structure
First fractionation
I
of the unsaponifiable matter obtained from
lipid extract of eilkaorm feces wee accomplished tion.
by molecular dietills-
The fraction, distilled out from 200 to 23Ot at 10“Torr..
6209
"LB
6210
then "LB
crpetsllieed
eeveral
ChrOmatOgraphed
a-hexsne
yielded
and infrared
The
from
n-hexane
gel.
Elution
two fractions
spectrum.
chromsto,grsphy
fiable
times
over silica
first
obtained
NDaa : 1.5112. (&s-o
jugat*d
Its
infrared
830 en-'.
Its nmr
(4-61,
r(in cDC13
Anal.
spectrum vya;
spectrum
followed acetone
showed
reference
and Rf
only
of the uneapOni-
primary
OH absorption
1660,
TYS. freq.
temperatUree
1450,
and uncon-
1380,
structural
1000. snd
InfOrmatiOn
60 9)
J-9.0 cps) and 4.8O(t.?)(-eCH-CH*-1. _
developed
cleavage
layer
in ultraviolet
The first
fraction
showed
in benzene-chloroform(4:l). From
a84 in chloroform-methanOl(4:l).
found
in
chromatography
one spot On thin
component
essential
with
and
12% ether
layer
absorption
c : saclog. Ii : ll.800.
by reductive 'were Only
by thin
oil at room
3000,
provided
a27 on s.tlica gel (3 plate8 in benzene
WZZLBa major
: 3300,
10 to
system.
~8 colorless
595(d.)(-CH-C&-OH,
found.
gave
and had no specific
,iouble bond,
7.95(-C&C&-),
fraction of solvent
which
fraction,
mlntter, W&S
regioo.
Each
in a variety
1)~ evidenced
at -5Ot
or acetone with
of the O?.Onide, levulin
on gas chromatography
and
Rf
RI
a48
oeonisation
aldehyde
and
88 2, 4-dinitrophenyl
hydraeones. Hydrogenation alcohol
derivative,
of the first NE:
Tte infrcrred spectrum
genated
~88 that aleo
alcohO1(5,7),
e::Cg*-CH..I-] * 645(t.)(CHr-C~*-oH). not 0bViOu.s and it may Horover,
result8
eaturated
product
due to "c-o had been
it" nmr spectrum
]>OlyieOprenyl
yielded
ieoprenyl
Rf a22 in benzene-chloroform
of the hydrogenated
rsductiorl the absOrption 1050 &_'(,I)snb
fraction
1.4630.
have moved
showed
shifted
that in the
from
expected
(4:l).
from
1000 to LL hydro-
r:P.lO(d.) (-CHz- r3 If-), 880(-C&But under
of reVereed-phase
the hydroxyl the larger paper
proton
signal
peaks.
chromatography
showed
w&e
No.49
that
6211
riret
the
fraction
contains
the fraction
wa8 effected
silica
Spectral
gel.
and result6
and At) were,
the described
mother
or proton
siqnal(r--B4) 1 :20
contain
cis-methyl
tie double
developed
oamometer H
b4W : 772.
apparatus ( 1:
in acetic preno1
A2
acid,
Adams
8354).Anal.
structure
was
alcohol.
tr0 which
it hae
catalyst
out
sod
NE:
prseesre
Found.
11.00 double
C :
0,usntitatLve bonds
for
in a microhydrogenation
ethanol-cyclOhexane-acetic
(5).
IS-1
6t.
Mw
rormamide
and RI
a28
: 037, 829 (Dodecaieo-
C : 86196, H : 12000, Calcd.
Catalytic
paper
acid,
by Vapor
7623). Anal.
Rf a34 in N. N'-dlmethyl
Found.
impregnated
C : Rt.09$, H : lc.82$.
carried
as solvent
experimental
on solanesol there
"Bre
these
hydrogenation
iOr C4~iiv40
: 12.17 double
bonde
iOr
I if n-12.
From our
(9).
Of
trane-methyl
spectra
that
Dolyiaoprenyl
determination
that
1.5095. m.p.
C : 86.2691 H : 11.82%.
shored
those
between
in the nmr
756(Undecaisoprenol
showed
NF:
ratios
and Rf R33 in acetic
weight
indicated
by vol.)
Substance
in relative
difference8
results
formamide
This
at 2Or with 1 : 1,
0Ver
isolated
minor
Rf a43 on pararrin
for CssHvoo
hydrogenation
.structure I if n-11.
for the irOn
of regular
9-IO'C. A molecular
gave
rechromatography
(l-P),
can be no doubt
results dolichol
and a consideration (5).
spadicol
that two 8Ubetancee
the unsaponifiable
matter
dodecaieoprenol-1,
respectively.
firmation
structurea.
Or these
Of
in the molecules.
: Il.935 Calcd.
catalytic
Above
eeparatlon
indlstinguiehsble
The are&
isubstance Al ahowed
in N, N'dimethyl
1.5094, m.p.
A611%.
bond
column
Further
or ozonization
signal(r -&34)
are both analogues
Isolated
work6
except
spectra.
for A, afid 1:1.7 for AZ.
Bubetances
acid
however.
fraction
in the nmr and
aubete.ncee.
by the precise
data
subetancee(Ar
area
two
of silkworm
feces
Further
of publiehed,
(8) and bstulaprenol
we hav5
fealrted
are undecaisbptenol-1
work
is in prOgrees
frOm and
On Con-
62lz
No.49
The
second
fraction, (4: 1).
ban&ens-chloroform chromatography obtained
any
eolrent
from
cryetsl
crystal
agreed
were
quite
fiable eole those
three
matter
diet
of leawe
those
fecea.
results
eolutlon,
the data
and
m.p.
paper
of authentic
epectral
"ee
39~4o'c.
chromatography
eoleneeol
and analytical
in
obtained data
Of the
Therefore,
of solaneeol.
II of eilkworm
alcohols
were
Of mulberry
feces originated
Detailed
with
according
01 silkworm,
(Rf I164 In acetone)
paper
feces
wee
conflrmed
to
found
in the UneapOni-
nonaieoprenol-1).
ieoprenyl
of silkworm
silkworm
rlth
in
spot on revereed-phase
981 acetone
fraction
be eolane8eol (all-trane
chromatography
and reversed-phase
identical
alcohol
layer
single
Of tobacco. In addition,
the ieoprenyl
Theee
only
from
of thin layer
eyeteme
leaves
gave
In any eolvent. eyetem
LB white
Ite Rf values
Rf a17 on thin
ala0
(Morue
bombycie
to the procedure
It ie Clear-that from
will
those
be publiehed
described
these
in leaves
It.). which
ieoprenyl
is the
above
for
alcohole
in
of mulberry.
elsewhere.
REFERENCES
1) R.L. 4680 2) R.E.
Rowland.
P.R.
Letimer.
Chem.
8oc..
78,
(1956). Wickeon.
J. Am. Chem. _-
C.H.
0. Ieler.
Helv.
Bpaccs.
Varlan --
NW
Preee,
U.8.A.
Bhunk, fi,
Boc..
3) R. Rile&g. Ll. Floor.
4) N.B.
J.A. cfilee. J. Am.
Epectra
4999
Tranner,
B.A.
Arloon.
K. Folker.
(1959).
A. Langemann.
Chim.
D.P.
N.R.
Acta., _
Iiollle. L.F.
*J
Y. Kofler.
C. ron Planta.
0. Ryeer,
1745(1960).
Johneon,
Catalog. -----Combined
E.A.
Vol.1
Pier.
and -2
J.N. p.367.
Shoolery National
(1962.1963).
5) 5. Bur(;oe. F.W. fan, 4711 (1963).
Hemming.
J.F.
Pennock.
R.A.
Morton,
Biochem.
J.
“iv.441
6)
R.B.
6213
Bates.
D.M.
7) L-M. Jackman, copy
Uale,
J. Am. Chem.
Applicqtions --_-__-.--~-
in Organic
chemlfitry
Sot.,
of Nuclear p.46.
E?
5749(1960).
’
Magnetic Resonance ---___---
Pergamoc
Press,
London
Spectrosand Oxford.
(1959). R) F.W. 291 9) P.O.
Hemming,
R.A. Morton. J.P.
Penr!ock, Proc.
Roy.
(1943). Lindgren,
Acta. -_.-
Chem. ___.__Stand..
19. I.117 (1965).
SOC.,
B.
158. -..
IEOLATION
3F NEW
pp. 6209-6213,
ISOPRENYL
1966.
ALCOHOLS
Perwon
FROM
fieae
SILKWORM
Ltd.
FECES
Hideaki Fukawa, Yaeaehi Toyods Toru Shimisu. and Yaeao Yurohsehi Central Laboratory
of
Nisshin Flour Milling Co.,
Ohi, Irumagun. Saitama, Japan (Received 28 July 1966;
New pOlyieOpreny1
in revised
form 29 September 1966)
alcohola have beer, isolated from the unesponi-
fiable matter of silkworm (Bonbyx mori L.) feces. their eubetances ere in agreement with structure contain cl6 double bonde). undecaisoprenol-1 From the above unsaponifiable
Structural data on I
(n-11
and 12. which
and dodecaisoprenol-l.
matter. presence
Of
s01anes01(1-4)(n-9,
all trane form) is now evident, aleo. CH3
I HfCH+Z-CH-CH&OH structure
First fractionation
I
of the unsaponifiable matter obtained from
lipid extract of eilkaorm feces wee accomplished tion.
by molecular dietills-
The fraction, distilled out from 200 to 23Ot at 10“Torr..
6209
"LB
6210
then "LB
crpetsllieed
eeveral
ChrOmatOgraphed
a-hexsne
yielded
and infrared
The
from
n-hexane
gel.
Elution
two fractions
spectrum.
chromsto,grsphy
fiable
times
over silica
first
obtained
NDaa : 1.5112. (&s-o
jugat*d
Its
infrared
830 en-'.
Its nmr
(4-61,
r(in cDC13
Anal.
spectrum vya;
spectrum
followed acetone
showed
reference
and Rf
only
of the uneapOni-
primary
OH absorption
1660,
TYS. freq.
temperatUree
1450,
and uncon-
1380,
structural
1000. snd
InfOrmatiOn
60 9)
J-9.0 cps) and 4.8O(t.?)(-eCH-CH*-1. _
developed
cleavage
layer
in ultraviolet
The first
fraction
showed
in benzene-chloroform(4:l). From
a84 in chloroform-methanOl(4:l).
found
in
chromatography
one spot On thin
component
essential
with
and
12% ether
layer
absorption
c : saclog. Ii : ll.800.
by reductive 'were Only
by thin
oil at room
3000,
provided
a27 on s.tlica gel (3 plate8 in benzene
WZZLBa major
: 3300,
10 to
system.
~8 colorless
595(d.)(-CH-C&-OH,
found.
gave
and had no specific
,iouble bond,
7.95(-C&C&-),
fraction of solvent
which
fraction,
mlntter, W&S
regioo.
Each
in a variety
1)~ evidenced
at -5Ot
or acetone with
of the O?.Onide, levulin
on gas chromatography
and
Rf
RI
a48
oeonisation
aldehyde
and
88 2, 4-dinitrophenyl
hydraeones. Hydrogenation alcohol
derivative,
of the first NE:
Tte infrcrred spectrum
genated
~88 that aleo
alcohO1(5,7),
e::Cg*-CH..I-] * 645(t.)(CHr-C~*-oH). not 0bViOu.s and it may Horover,
result8
eaturated
product
due to "c-o had been
it" nmr spectrum
]>OlyieOprenyl
yielded
ieoprenyl
Rf a22 in benzene-chloroform
of the hydrogenated
rsductiorl the absOrption 1050 &_'(,I)snb
fraction
1.4630.
have moved
showed
shifted
that in the
from
expected
(4:l).
from
1000 to LL hydro-
r:P.lO(d.) (-CHz- r3 If-), 880(-C&But under
of reVereed-phase
the hydroxyl the larger paper
proton
signal
peaks.
chromatography
showed
w&e
No.49
that
6211
riret
the
fraction
contains
the fraction
wa8 effected
silica
Spectral
gel.
and result6
and At) were,
the described
mother
or proton
siqnal(r--B4) 1 :20
contain
cis-methyl
tie double
developed
oamometer H
b4W : 772.
apparatus ( 1:
in acetic preno1
A2
acid,
Adams
8354).Anal.
structure
was
alcohol.
tr0 which
it hae
catalyst
out
sod
NE:
prseesre
Found.
11.00 double
C :
0,usntitatLve bonds
for
in a microhydrogenation
ethanol-cyclOhexane-acetic
(5).
IS-1
6t.
Mw
rormamide
and RI
a28
: 037, 829 (Dodecaieo-
C : 86196, H : 12000, Calcd.
Catalytic
paper
acid,
by Vapor
7623). Anal.
Rf a34 in N. N'-dlmethyl
Found.
impregnated
C : Rt.09$, H : lc.82$.
carried
as solvent
experimental
on solanesol there
"Bre
these
hydrogenation
iOr C4~iiv40
: 12.17 double
bonde
iOr
I if n-12.
From our
(9).
Of
trane-methyl
spectra
that
Dolyiaoprenyl
determination
that
1.5095. m.p.
C : 86.2691 H : 11.82%.
shored
those
between
in the nmr
756(Undecaisoprenol
showed
NF:
ratios
and Rf R33 in acetic
weight
indicated
by vol.)
Substance
in relative
difference8
results
formamide
This
at 2Or with 1 : 1,
0Ver
isolated
minor
Rf a43 on pararrin
for CssHvoo
hydrogenation
.structure I if n-11.
for the irOn
of regular
9-IO'C. A molecular
gave
rechromatography
(l-P),
can be no doubt
results dolichol
and a consideration (5).
spadicol
that two 8Ubetancee
the unsaponifiable
matter
dodecaieoprenol-1,
respectively.
firmation
structurea.
Or these
Of
in the molecules.
: Il.935 Calcd.
catalytic
Above
eeparatlon
indlstinguiehsble
The are&
isubstance Al ahowed
in N, N'dimethyl
1.5094, m.p.
A611%.
bond
column
Further
or ozonization
signal(r -&34)
are both analogues
Isolated
work6
except
spectra.
for A, afid 1:1.7 for AZ.
Bubetances
acid
however.
fraction
in the nmr and
aubete.ncee.
by the precise
data
subetancee(Ar
area
two
of silkworm
feces
Further
of publiehed,
(8) and bstulaprenol
we hav5
fealrted
are undecaisbptenol-1
work
is in prOgrees
frOm and
On Con-
62lz
No.49
The
second
fraction, (4: 1).
ban&ens-chloroform chromatography obtained
any
eolrent
from
cryetsl
crystal
agreed
were
quite
fiable eole those
three
matter
diet
of leawe
those
fecea.
results
eolutlon,
the data
and
m.p.
paper
of authentic
epectral
"ee
39~4o'c.
chromatography
eoleneeol
and analytical
in
obtained data
Of the
Therefore,
of solaneeol.
II of eilkworm
alcohols
were
Of mulberry
feces originated
Detailed
with
according
01 silkworm,
(Rf I164 In acetone)
paper
feces
wee
conflrmed
to
found
in the UneapOni-
nonaieoprenol-1).
ieoprenyl
of silkworm
silkworm
rlth
in
spot on revereed-phase
981 acetone
fraction
be eolane8eol (all-trane
chromatography
and reversed-phase
identical
alcohol
layer
single
Of tobacco. In addition,
the ieoprenyl
Theee
only
from
of thin layer
eyeteme
leaves
gave
In any eolvent. eyetem
LB white
Ite Rf values
Rf a17 on thin
ala0
(Morue
bombycie
to the procedure
It ie Clear-that from
will
those
be publiehed
described
these
in leaves
It.). which
ieoprenyl
is the
above
for
alcohole
in
of mulberry.
elsewhere.
REFERENCES
1) R.L. 4680 2) R.E.
Rowland.
P.R.
Letimer.
Chem.
8oc..
78,
(1956). Wickeon.
J. Am. Chem. _-
C.H.
0. Ieler.
Helv.
Bpaccs.
Varlan --
NW
Preee,
U.8.A.
Bhunk, fi,
Boc..
3) R. Rile&g. Ll. Floor.
4) N.B.
J.A. cfilee. J. Am.
Epectra
4999
Tranner,
B.A.
Arloon.
K. Folker.
(1959).
A. Langemann.
Chim.
D.P.
N.R.
Acta., _
Iiollle. L.F.
*J
Y. Kofler.
C. ron Planta.
0. Ryeer,
1745(1960).
Johneon,
Catalog. -----Combined
E.A.
Vol.1
Pier.
and -2
J.N. p.367.
Shoolery National
(1962.1963).
5) 5. Bur(;oe. F.W. fan, 4711 (1963).
Hemming.
J.F.
Pennock.
R.A.
Morton,
Biochem.
J.
“iv.441
6)
R.B.
6213
Bates.
D.M.
7) L-M. Jackman, copy
Uale,
J. Am. Chem.
Applicqtions --_-__-.--~-
in Organic
chemlfitry
Sot.,
of Nuclear p.46.
E?
5749(1960).
’
Magnetic Resonance ---___---
Pergamoc
Press,
London
Spectrosand Oxford.
(1959). R) F.W. 291 9) P.O.
Hemming,
R.A. Morton. J.P.
Penr!ock, Proc.
Roy.
(1943). Lindgren,
Acta. -_.-
Chem. ___.__Stand..
19. I.117 (1965).
SOC.,
B.
158. -..