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A novel approach to the synthesis of 1,2-cis-glycopyranosides
Tetrahedron Letters,Vol.26,No.6,pp 807-808,1985 Printed in Great Britain
A NOVEL APPROACH
Francesco
Nicotra,
Dipartimento Sostanze Methyl
Summary:
TO THE SYNDESIS
Luigi Panza?
di Chimica
Organiche
OF 1,2-cis-GLYCOPYRANOSIDES
Fiamma Ronchetti,
Organica
Naturali
0040-4039/85 $3.00 + .OO 01985 Pergamon Press Ltd.
Giovanni
e Industriale
and Centro
de1 CNR, via Venezian
3,4,6-tri-O-benzyl-d-D-glucopyranoside
chemistry. tivated
synthesis
Differentglycoside-linking
component
1,2-cis-glycosides presence
of glycosides
and methyl
and a hydroxyl
component
from an activated
makes new synthetic
have been employed.'
methods
We wish here to report a novel approach
linkage
at C-2 in the proper
attack of the hydroxyl
according
in CHC13 mediate
(r.t., overnight) epoxides
chromatography. samples.
by reaction
and usual work-up
directly,
which-
"Guide Donegani"
3
into (2)-(2R,3R,UR)-6-methoxy-
Fellow,
were confirmed
June 1984-May
807
easily separated
without
1985.
acid(l.1
isolation
by flashmolar eq.)
of the inter-
e7 (35%) and methyl
easily separated
9
* Fondazione
nucleophilic
3
3,4,6-tri-0-benzyl-d-D-glucopyranoside
of these compounds
moiety and the
p
2) with m-chloroperbenzoic
afforded
$(20%),
of the type
with diphenyl(methoxymethyl)pho-
and its E isomer s6(20%),
of 4cO.2 muol)(scheme
The structures
oligo- and poly-
OH
and/or
of Suzuki and Mukaiyama,
1 4'5(40%)
3,4,6-tri-O-benzyl+D-mannopyranoside
occurring
2 -
was transformed,
6 and z, methyl -
of
On the other hand, the
OH ,\\'
P
1 -
Treatment
ac-
C-l.
>
chromatography.
the synthesis
(scheme l), by intramolecular
F
1,3,4-tribenzyloxy-5-hexen-2-01
of a glycosyl
such as 1, with the aglycone
steric relationship
to the procedure
task.
1
in carbohydrate
to which 1,2-cis-glycopyranosides
SCHEwEl
spine oxide, according
However,
of
welcome.
group at C-5 on an activated
2,3,5-Tri-0+enzyl-&arabinose2
problems
in various naturally
2 and/or 3 are formed from an open chain precursor substituent
Italy.
3,4,6-tri-O-benzyl-p-D-manno-
the combination
sugar is still a difficult
of the 1,2-cis-glycopyranosidic
saccharides
which utilize
di Studio per le
acid treatment
is one of the most important methods,
and Lucia Toma
21, 20133 Milano,
pyranoside were directly obtained by ;-chloroperbenzoic (Z)-(2R,3R,4R)-6-methoxy-l,3,4-tribenzyloxy-5-hexen-2-o1.
Stereospecific
Russo*
by silica gel
by comparison
with authentic-
808
SCHEME2
0Bt-l En0
m-CPBA
H
BnO
OCH3
\
% 0CH3
-9
nnv
4
OH
10 A small amount of
(El-(US,5R)-4,6-dibenzyloxy-5-hydroxy-2-hexenal
from the starting
Z-enolether,
These preliminary
results
as A, followed one-pot
References
indicate
(12%) was also obtained conditions.
of easily obtainable
cyclization
of 1,2-cis-glycopyranosides.
Work is in progress
acidic reaction
that the epoxidation
by the "in situ" spontaneous
synthesis
tractive.
owing to the slightly
lo
Z-enolethers
of the formed epoxides,
The above procedure
constitutes
seems therefore
an
quite at-
to improve and extend these results.
and Notes
1. H. Paulsen,
Angew. Chem. Int. Ed. Engl., 11, 155 (1982).
2. S. Tejima andH.J. Fletcher, 3. K. Suzuki and T. Mukaiyama, 4. Satisfactory
elemental
5. 4: oil,[@.]~"=-12.50(c
J. Orp. Chem., a,
2999 (1963).
Chem. Lett., 683 (1982).
analyses
and spectroscopic
1.2 in CHC13),
data were obtained
'H-NMR(CDC13,80MHz):&
6.15,
for all new compouns.
(d, lH, J=5.5Hz,
1.0 in CHC13), 'H-NMR(CDC13,80MHz):5 6. 5: m.p. 53-5U°C (from hexane),[d]i0=-320(c (d, lH, J5,6=13.5Hz, H-6); 4.83, (dd, lH, J5,6=13.5HZ, J4,5=9Hz, H-5). 7. 8: m.p. 87-88OC
(from hexane),[d]E'=
8. 2: oil,[D(]~"=-13.20( 9.
such
98O(c 1.0 in CHC13);
c 1.0 in CHC13);
(lit."
H-6).
6.45,
m.p. 87-89°C,[d]~o=1000)
(lit.12[d]$0=-10.20).
g was obtained from the known methyl 2-0-acetyl-3,4,6-tri-O-benzyl-o(-D-glucopyranosidel3 by CH30Na/CH30H hydrolysis. l4 2 was obtained from the known methyl 3,4,6-tri-0-benzylq-Dby NaBH4 reduction according to Shaban and Jeanloz.15 arabino-hexosidulosell
9.59, (d, lH, Jl 2=8Hz, H-l); 6.86, 10. lo: lH-NMR(CDC13,80MHz):5 H-3); 6.30, (ddd, lH, J1,2=8Hz, J2,3=16Hz,'J2,4=0.8Hz, H-2). 11. G. Ekborg,
B. Lindberg
12. V.R. Srivastava
and J. w,
and C. Schuerch,
13. S. Koto, N. Morishima, 1092 (1982).
(dd, lH, J2 3=16Hz,
Acta Chem. Stand., 26! 3287 (1972). Tetrahedron
R. Kawahara,
Lett., 35, 3269 (1979).
K., Ishikawa
and S. Zen, Bull. Chem. SOC. Jpn., 55,
14. N.K. Kochetkov, B.A. Dmitriev, N.N. Malysheva, A.Ya. Chernyak,E.M. and V.I. Torgov, Carbohydr. Res., 45, 283 (1975). 15. M.A.E.
Shaban and R.W. Jeanloz,
J3,4=5.5Hz,
Carbohydr.
(Received in UK 30 November 1984)
Res., 52, 103 (1976).
Klinow, N.E. Bayramova
A NOVEL APPROACH
Francesco
Nicotra,
Dipartimento Sostanze Methyl
Summary:
TO THE SYNDESIS
Luigi Panza?
di Chimica
Organiche
OF 1,2-cis-GLYCOPYRANOSIDES
Fiamma Ronchetti,
Organica
Naturali
0040-4039/85 $3.00 + .OO 01985 Pergamon Press Ltd.
Giovanni
e Industriale
and Centro
de1 CNR, via Venezian
3,4,6-tri-O-benzyl-d-D-glucopyranoside
chemistry. tivated
synthesis
Differentglycoside-linking
component
1,2-cis-glycosides presence
of glycosides
and methyl
and a hydroxyl
component
from an activated
makes new synthetic
have been employed.'
methods
We wish here to report a novel approach
linkage
at C-2 in the proper
attack of the hydroxyl
according
in CHC13 mediate
(r.t., overnight) epoxides
chromatography. samples.
by reaction
and usual work-up
directly,
which-
"Guide Donegani"
3
into (2)-(2R,3R,UR)-6-methoxy-
Fellow,
were confirmed
June 1984-May
807
easily separated
without
1985.
acid(l.1
isolation
by flashmolar eq.)
of the inter-
e7 (35%) and methyl
easily separated
9
* Fondazione
nucleophilic
3
3,4,6-tri-0-benzyl-d-D-glucopyranoside
of these compounds
moiety and the
p
2) with m-chloroperbenzoic
afforded
$(20%),
of the type
with diphenyl(methoxymethyl)pho-
and its E isomer s6(20%),
of 4cO.2 muol)(scheme
The structures
oligo- and poly-
OH
and/or
of Suzuki and Mukaiyama,
1 4'5(40%)
3,4,6-tri-O-benzyl+D-mannopyranoside
occurring
2 -
was transformed,
6 and z, methyl -
of
On the other hand, the
OH ,\\'
P
1 -
Treatment
ac-
C-l.
>
chromatography.
the synthesis
(scheme l), by intramolecular
F
1,3,4-tribenzyloxy-5-hexen-2-01
of a glycosyl
such as 1, with the aglycone
steric relationship
to the procedure
task.
1
in carbohydrate
to which 1,2-cis-glycopyranosides
SCHEwEl
spine oxide, according
However,
of
welcome.
group at C-5 on an activated
2,3,5-Tri-0+enzyl-&arabinose2
problems
in various naturally
2 and/or 3 are formed from an open chain precursor substituent
Italy.
3,4,6-tri-O-benzyl-p-D-manno-
the combination
sugar is still a difficult
of the 1,2-cis-glycopyranosidic
saccharides
which utilize
di Studio per le
acid treatment
is one of the most important methods,
and Lucia Toma
21, 20133 Milano,
pyranoside were directly obtained by ;-chloroperbenzoic (Z)-(2R,3R,4R)-6-methoxy-l,3,4-tribenzyloxy-5-hexen-2-o1.
Stereospecific
Russo*
by silica gel
by comparison
with authentic-
808
SCHEME2
0Bt-l En0
m-CPBA
H
BnO
OCH3
\
% 0CH3
-9
nnv
4
OH
10 A small amount of
(El-(US,5R)-4,6-dibenzyloxy-5-hydroxy-2-hexenal
from the starting
Z-enolether,
These preliminary
results
as A, followed one-pot
References
indicate
(12%) was also obtained conditions.
of easily obtainable
cyclization
of 1,2-cis-glycopyranosides.
Work is in progress
acidic reaction
that the epoxidation
by the "in situ" spontaneous
synthesis
tractive.
owing to the slightly
lo
Z-enolethers
of the formed epoxides,
The above procedure
constitutes
seems therefore
an
quite at-
to improve and extend these results.
and Notes
1. H. Paulsen,
Angew. Chem. Int. Ed. Engl., 11, 155 (1982).
2. S. Tejima andH.J. Fletcher, 3. K. Suzuki and T. Mukaiyama, 4. Satisfactory
elemental
5. 4: oil,[@.]~"=-12.50(c
J. Orp. Chem., a,
2999 (1963).
Chem. Lett., 683 (1982).
analyses
and spectroscopic
1.2 in CHC13),
data were obtained
'H-NMR(CDC13,80MHz):&
6.15,
for all new compouns.
(d, lH, J=5.5Hz,
1.0 in CHC13), 'H-NMR(CDC13,80MHz):5 6. 5: m.p. 53-5U°C (from hexane),[d]i0=-320(c (d, lH, J5,6=13.5Hz, H-6); 4.83, (dd, lH, J5,6=13.5HZ, J4,5=9Hz, H-5). 7. 8: m.p. 87-88OC
(from hexane),[d]E'=
8. 2: oil,[D(]~"=-13.20( 9.
such
98O(c 1.0 in CHC13);
c 1.0 in CHC13);
(lit."
H-6).
6.45,
m.p. 87-89°C,[d]~o=1000)
(lit.12[d]$0=-10.20).
g was obtained from the known methyl 2-0-acetyl-3,4,6-tri-O-benzyl-o(-D-glucopyranosidel3 by CH30Na/CH30H hydrolysis. l4 2 was obtained from the known methyl 3,4,6-tri-0-benzylq-Dby NaBH4 reduction according to Shaban and Jeanloz.15 arabino-hexosidulosell
9.59, (d, lH, Jl 2=8Hz, H-l); 6.86, 10. lo: lH-NMR(CDC13,80MHz):5 H-3); 6.30, (ddd, lH, J1,2=8Hz, J2,3=16Hz,'J2,4=0.8Hz, H-2). 11. G. Ekborg,
B. Lindberg
12. V.R. Srivastava
and J. w,
and C. Schuerch,
13. S. Koto, N. Morishima, 1092 (1982).
(dd, lH, J2 3=16Hz,
Acta Chem. Stand., 26! 3287 (1972). Tetrahedron
R. Kawahara,
Lett., 35, 3269 (1979).
K., Ishikawa
and S. Zen, Bull. Chem. SOC. Jpn., 55,
14. N.K. Kochetkov, B.A. Dmitriev, N.N. Malysheva, A.Ya. Chernyak,E.M. and V.I. Torgov, Carbohydr. Res., 45, 283 (1975). 15. M.A.E.
Shaban and R.W. Jeanloz,
J3,4=5.5Hz,
Carbohydr.
(Received in UK 30 November 1984)
Res., 52, 103 (1976).
Klinow, N.E. Bayramova