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The stereochemistry of the addition of glycerol to D -galactal, catalyzed by β-D -galactosidase
Curboh~dmre Rzsemch. 58 (1977) 73-75 19 Ek\ler Sc~cntiiic Puhllshlog Comoany.
THE
STEREOCHEMISTRY
D-GALACTAL, JOCHEN
OF
CATALYZED
LEHMANN
Amsterdam
THE BY
- PrInted
In Bclglum
ADDITION
OF: GL\.CEROL
TO
/3-D-GALACTOSIDASE*
AND BERJT
Chemrsches
dcr
(Received
ILh.
Unrtersrtcr.
FrArtrp
,m Bwrsgau
iw public-atmn, January
1976;
10th.
1977)
ABSTRACT
On
incubation
N Irh B-D-Ealactosidase,
I-dcoxy,olyc?rol-I-yl it was shown moiety.
that rhe hydrogen
In contrast
phenol
with
D-palacral-24
atom
introduced
to Ihis stereospecific.
peracetylated
1, catalyzed
enzyme-carnlyzed
/?-D-Galacrosidase
from (2)
D-,oZlkICt3l
t0
EstV~ericlliu
IO
W.
the reaction
of
acid. kr hich yields phenyl was iho\! n tc entail
obsened
rcqulres.
with
to mediate
arises whether
(3).
D-@ucal’
a proton-donating
of C-2,
1s stereospccilic
‘.
borh a
(AH)
calion
the stereospecific transfer to the
Because of would
ha\ ing the fi-o-anonwic
be either
HBS shown carbon-bound 4S h. As
hydrogen
Hehre’
spectroscopy exchange applied. bound
(as
(probably
could
not
as a probe.
can or.ly
find
and
at C-7) any
when
hydrogen,
‘Uncommon
CurbuhJdr.
synthesis Results
Res.,
when
even in solution
the highly
Incu’r,ated
(5 Cl/mol)
D,O.
oiGlycosldase 65-72,
ActIon, (precedmg
sensitive.
and
technique
IV.
paper),
For
Part
III.
set J. Lehmnnn
and
is
of carbon-
me preferred
I -yl 3-deoxy-B-c-!r,.\o-hexopyranoside-~-~ Pan
for
‘H-n.m.r.
IOU and that
radiolabelllng
of high sl)ecific activity.
it
exchnnsc
in ibaler-l
usinp
to yield reaction
e.kperimenrs’,
did not
in water-r
of I -deouyglycerol-
53 (1957)
addition
we assume that the eschangc rate is estrcmely
be detected
As 2-deo\v-D-/>-so-hexopyranosides
enzymic
rhe protona-
icater or &cerol.
the overall
when
’ in
ring.
2-deo? y-D-arubitto-hexose
exchange
ha\c
probably
a + b), the ques[lon
in B). In carlb?r, qualitatwe
‘-deo\y-D-/~,xo-he~o~~
or I-yl
of ihe enzyme’
(e.g.,
acceptor
configuration’-‘.
cis (as in A) or tratts
that
reactions reaction
or not and, if ir is, whether
uon occurs from abobe or below the plane of the pyranoid 3 product
of waler
I -deouy@lycerol-
A% the
group
of a 2-deoxy@lycosyl
the formarion
the protowtion
Ihe addltlon and
Correspondins
respectively. and
fi-D-glucosidass
in rhe vicinity
’ *’ catalyzes
coii
2-deoxy-D-lr,ao-he\ose
gVcZ
2-dcoxy-j3-o-Irxo-hekopyranoside
order
addIt-on.
by p-tolusnesulfonic
analqsls.
to the a&con
and a cis additlon.
&‘COrd
been
_elycerol yielded
plus
By ‘H-n.m.r.
on C -3 is rranwelated
3,4,6-tri-O-acetvl-2-deo~y-~-o-~~~.~~-he~op~~ano~ide-_ tram
(1)
‘-deo\y-8-o-lr,xo-heuopyranosidc-I(S)-lf.
the from
E. Sshrowr.
74
J. En.-,ne
L.EHhIAI%N,
B.
ZlEGW
EKyrrw
I
I
_*-_o H
A
n
ki
-0.
‘\
a
product
___c
‘.
+
--$_
,,,2-- f4
l-4
I
--\i
H
l-l
l
H
DroalAcl
--
A-
Enzyme
Enzyme
b
(1
I and glycerol in order to elucidate B-D-galactosldase.
the stereochemistry
of the addition
catalyzed
Compound 1 !\as prepared by starting with isopropyl 2,3,~,6-tz~z-0-acetyi-aD-galactopyraooside-,3-d (4) plus its C-2 epimerg, namely, isopropyl 2,3,4,6-tetra-Uac~tyl-r-D-ta~opyraoosidc-‘-d (5). and applying the reaction sequence depicted. RC
P
k-si 0
0
OR
4 =
8-l-S
=I3“7
+
Oc$l.2~
(R
0
RO
OR
OCt.ler
H
D
I 11)
5
HBr/AcOH
tr? 1 Z”/ALOH
AC)
131 MeONa
(1)
MeGtia
12)
IR-lXdH+)
(51
AqO
I
CHaOR
Ra+OR
+
‘O&OR
D
OR 6R= BK
=
R”G
R’
H
7R=
H
1
AC
SR=
AC
2R=
R=
1OR
H,R’=
D
R’=H =
Ac,R’=
D
by
iWDITION OF GLYCEROL TO D-GALACTAL
75
Glycerol was cnzymiwlly added to 1, and the resulting, crude glycoside I -yl Z-deovy-8-o
was isolated by preparative by acetylating the crude giycoside 11, and separating the acetylated product by preparative t.l.c. The 2,3-dl-U-acetyl-I-deo.uyglycerol-l-y1 3,4,6-tri-0-acetyl-2-d~o~~-~-o-/~.~~-he~op~~3noside-~(~)-~ (12) so obtained was uniform according to analysis by g.1.c. Nonlabelled 12 (13) w3s 1. Comparison of the corresponding sections of the ‘H-o.m.r. spectrn of 12 and 13 (see Fig. I) clearly indicated thar. in compounds 1 and 2, the proton added through enzymic reaction occupies the equatorial position. Thus, it is proved that alternative pathway B is correct, and that the enzyme-catalyzed
t.1.c. Final purification
was achieved
spcz~m of 11 and 13 In chlorofarm-d.
Fig. 1. Partrd. 270-hli-iz.
‘H-n.m.r.
Fig. 2. Partul, 270-MHz.
‘l-f-n.m r. spectra of I4 and 15 In chloroform-d.
J. LEHhWNN,
76 reaction
of glycerol,
finding
corresponds
experimental rirher
and, most probably, quell with
approach,
In order to exclude
of water also, with 2 is a ~rans addition.
the results
showed
bj P-o-glucosidase
that
obtained
the reaction
or a-D-glucosidsss
the possibilily
by Hehre’,
who,
of ~-gl~cal
(Canfi’i&
with
rrupicafis),
of a substrate-induced,
chjrd
by acid-catalyzed
sdditrdn
14 ~vns compared
of pheiol
uolabellcd
acctyl-2-deouy-~-~-l~~ro-l~euopyraooside’” (see Fig. 2) indicated addition
protonation
results
presence, reacrlon
of these esperimenls
at the binding
Genm71
sample
Secliocs
of almost
of
equal
(10).
of phenyl the
Com-
3,3,6-tri-0-
‘H-n.m.r.
amounts
f,hlercb),
spectra
of cix- and frans-
-
Opttcal
points
(b.p.
data
Fourier-transform
Boehringer at 40’
in 0.1~
chloride
for
and
The
the
I paper of 3%
v,ith
6:4:3
of SE 52 on
gas. and flame-ionization
hle,Si)
obtained
\ierz
with
a
Vatian
stated.
E.xhrriclriu coli was purchased
the
suspension
purification.
brlffer
reaction
\\a
(7). -
All
(pH
6.8)
with
complete
syrup was dissolved
(K’)
A mixture
ranoside-_ 3-d (4)
(_s) NTIS stirred
reG&.tal IR-120
lsith sulfuric
as the carrier
and
phosphate
141
silica gel FZjA
(S m&ml;
enzyme that
specific
reacrions
contained
!!ere
IO-%i
IO- ‘M 2-mercsptoethanol.
f-IY-D-g3kKtOpJ
D-talop~,rsnosrdo-_$-t19 IVhen
sodium
on
No.
in glass columns
from
further
a Perkin-Elmer
by charrir.g
unless othenhise
Germany),
(6) aruf D-t&w-3-d
?.?.~,6-re[ra-0-acet~
rrith Ambrrlirc
group4
benzsz-mzthanol: B. 4:i D, ether: and E, 4:l
on Whatman
internal
\b;is used \\ithout
o-Go&low-3-d
evaporated.
the addition
actrlating.
ulth
itas effected
$-D-Galactosidase*
(hlannheim.
30 Lilmg)
Derection
spectrometer
-
.-I. I:I
(v/v):
win g nitrosen
I!7&hlHz,
(100 ml).
an
was performed
acetate-3-propsnol-water:
(\a1 conducted
(CHCI,-(/,
Eu_r:lw rearriorrr.
T.l.c.
was performed
G AIV-DhlCS, N.m.r.
napneGum
60-70’).
G.1.c.
detecuon.
performed
that can trlsper
or even
iterr: measured
systemj
ethyl
chromatography
butanol-pyridine-crater.
rotations
jol\ent
C. 25.13.7
petroleum
Chromosorb
of a group
3s ;1 binding,
are uncorrected.
\sirh tbc followng
benzenz-methanol: Paper
seves
to su,ogcst the
stem
at C-2.
blelting
ether-light
ilrith P-D-gaktosidase
site of the enzyme,
m~tl~ocis.
pofarimeter.
from
(15).
11 is a mixture
to 2. and that normally
the substltuent
actr\*iry
of C-2 in
was synthesized
products.
The
acid.
that
catalyzed
water,
is a Irons addition.
to 3,4.6-tn’-c-s~tyl-D-,oalactal-2-d
wirh an authenlic.
This
by a di!ierent,
2, phenvl 3,4,6-rri-O-acetvl-3-deouv-~-o-/~~.~~-hcsop~ranoside-~-d(ll) pound
B. ZiEGER
and
M sodium (t.l.c.,
methoxide sollent
in water,
resin for 3 days at 90-95.
(25.3 g) of isopropyl
isopropyl A),
tetrs-O-acetyl-rin abs. thz
and the solution (t.l.c.,
solvent
methanol
solution
\ias
was treated
A). Neutraliza-
ADDITION
tion
OF GLYCEROL
\\ith sodium
as a syrup,
hydroxide,
identified
77
TO D-GALACTAL
filtration,
and Iyophilization
A mixture
-
with ’ ’ sodium poured
into
of 6 and 7 (9.25 g) \ras cotxcrted
acetate (4 .2 g) and acetic anhydride ice-water
(200 ml).
stirring.
ibith
and
with
\\ater and ice-colcl ether.
as colorless
m.p.
141’ ; n.m.r.
nesdks, (m,
2 H. H-3.4),
a mixture resulting
the solid
was
Compound
data (CDCI,.
5.72-5.35
into
(,4S g). The
washed successively 4AO-4.90
6 plus 7 (9.25 g)
I I-/3-D-rc;lop~ fan092
2-d (8) atrdpettru-0-acef
Petlia-0-acet~‘l-8-D-ga~aclop~~ranose2-d (9).
yielded
by g.1.c. and paper chromatography.
-CH,-).
filtered
NZS
otT, and
8 (6 g) was obtained
60 hlHz):
(m, 3 H, H-5,
of 8 and 9 solution
T
4.16 (bs. I H. H-l),
and 7.75-8.10
(m,
15 H.
-OCOCH,). The wre
filtrate
~$35 extracted
combined,
with
dichloromethane
\iashed
~UCC~SSIV~~~
~lth
(3 x 100 ml) and water (I x 100 ml), dried (hl$O,), (8.5 g) as a crude
oil \\hich
with -KF,o HBr;glnc.
(m.
4.37-I
I5H.
95 (m.
IO give 9
-
A mixture
bromides’
2 H.
of 8 and
5.5~6.20
from silica gel \ilth
60 hlHz): (m.
3 H,
p) was
reduced ’ 3 ~irh ztnc (30 g) in
‘. \i hlch liaj
data (CDCI,,
H-3.4).
9 (l-l.5
of the corresponding
T
H-5.
3.33
(d.
-CH?-).
I H,
E
jol\ent H-l.
J,.,
and 7.55-8.10
-OCOCH,).
( 5). -
D-Ga/acta/-2-d sodrum
metholide
(sollent
.-I). The
filtered.
Solvent
(309
(IO).
i0 (3.5 2. ~X’?O); n.m.r.
I.7 Hz).
the extracts
itt motto,
and aaporated
acetic acid (160 ml) to give 10 as a crude oil. Elution
afforded
and
hbdrogencarbo-arc
acetic acid (20 ml) into a mixture
tctra-O-acctyl-r-D-he\opyr3nosgl 5Pb
jodlum
was not purified.
3,~,6-Tri-O-ac~/~,l-D-ga/ac/~/-~-d con\crted
(4 x 50 ml),
aqueous
mg. 939,“).
10 (575 mg)
Compound
in abs. methanol
(20 ml).
solution
was made
removal
left an oil lrhich
m.p.
neutral
~lth
dsacctylated
\%a
the reaction
being
Amberlite
crysrallized
from
\\ith
monltored
IR-1’0
(H’)
ethyl
acetate
0.1~
by t.1.c. resin, and to give
1
103-10-I‘.
~,3-Di-O-acer~~~-~-~i~o~~g~l~cero~-i-_~~i 3.~.6-iri-0-aC~f~~i-~-~~10.~~1-~-D-l~~O-~l~.~Op~m.utoside (13). - j3-D-Galactosidase (0.5 ml) \\as added to a solution of 2 (0.5 g) and glycerol
(5 ml) tn buffer (ZOO ml). .Aiw
(monitored
by t.1.c. in solvent
Iyophilized.
Cornpound
chromatography
@l.c.:
(3 ml) in pyrldine addition
solLent
~a< heated
as a ycllo~
C):
it itas
2-I h, the mixture
and evaporation
from
oil after repeated
then
scetglated residue
prsparati\e-layer
with
acetic
ttz racuo.
was evaporated
the oily
disappeared
to 90‘. tilrcred.cooled.and
left a product
anh>dridc Repeated which
~‘3s
D) to gl\c 13 (106 mg); n.m.r. dais: T 4.i-i (m. I H. H-lc. J,,_,,3 5.0, (m, ! H. H-3a. .135,3rr 12 Hz, JJd,:* 5.5 HA). 5.U(m.
1 H,
purified H-l),
6 was obtained
(3 m!). After
oi toluene
I4 days at -IO’. 2 had almost
C). The solution
on p.l c. plates (solvent
J ,cl,lo 8 Hz), 6.11 (m,
I H, H-S),
and 7.35-5.05
(m.
Hz.
IS H, -OCOCH,).
2,3-Di-0-acetvl-I -dco.vy-D-g/_weroII-~*/ 3,~,6-tri-O-acef_~,l-,‘-dt10.~~.-P-D-I~ \ohexop~,ranosid=--2-d (12). - Compound 12 was prepared and isolated as forcompound 13, by (I.5 quent
use
ml),
of
1 (309 mg),
temperature
ncetylation,
40’.
glycerol lncubnrlon
12 (73 mg):
n.m.r.
(3 ml)
in
butTer
time:
7 dabs,
data:
~4.74
(I20
ml),
affordins (m.
I H.
P-D-galactosidsse 11. and.
H-4).
5.0’
by subs+ (m,
I H,
78
J.
LEHhlANN,
B. ZIEGBR
H-30, Jsm 5 Hz, Jwe 3 Hz), 5.44 (m, 1 H, H-la, J,.,21 2.5 Hz, J,,2 4.3 Hz), 6.21 (m, 1 H, H-5), 8.03 (m, I H, H-2), and 7.85-8.0 (m. 15 H, -OCOCH3). Both 12 and 13 could be deacetylated Hith M sodium methoxide in abs. methanol to gi\e chromatographically homogeneous 3) and 11, respectively. PhenJd 3,4,6-tri-O-acet~~I-Z-deo.~~~-ar-D-lyxo-hexop~~ranoside-2-d (14). The synthesis of IS was performed according to a modified method by WaUenfels and acid (0.05 g) Lehmann lo. Part (75 mp) of a melt of phenol (I g) and p-tolueacsulfonic was heated with 10 (70 mg) for I 5 set OF a water bath (60”) with vigorous shaking; the melt became dark-colored. (The mivturz must not be allowed to get black.) Ice-cold, aqueous sodium hydrogencarbonate (50 ml) and chloroform (30 ml) were then added; the aqueous layer was extracted several times with chloroform. The extracts were combined. dashed ~iith Hater (2 x 50 ml), dried (higSOJ, and evaporated in racuo, to give 1-l as an 011. Cqstsllization from ethanol yielded 14 (55 mg. 5S%) in chromatogaphically pure form, m.p. 127’; n.m.r. data: T 2.79 (m, 5 H, -Ph-I-F), 4.24 (m, I H. H-I. J, ,2s I Hz, J, ,2rr3.5 Hz). 4.48 (m, I H, H-3, J,,, 3.0 Hz), 4.60 (m, 1 H, H-4), 5.71 (m, 1 H, H-5). 5.9-I (m. 2 H, -CH,-), 7.74 (m. I H, H-2x1, Jzo,Le 13 Hz, Jza,, 12.5 Hz). 7.89 (m, I H, H-S-, JZr,3 5.5 Hz. J2+,J I Hz), 7.S-1 (s, 3 H, -OCOCH,),
7.97 (s, 3 H. -OCOCH,),
and 8.07 (s, 3 H, -OCOCH,).
ACKNOWLEDGXIENTS
We rhank Prof. Dr. K. \\‘alfenfe!s
the Deutxhe
for a sample of pure P-D-gaiactosidase,
and
for financial support.
Forschungsgemrinschaft
REFERENCES 1
J.
LEHMAhN
AND
E.
SCHRoTER.
Curbohbdr.
Rex.
23 (1972) 359-365.
\~‘ALLE%FELS END G. KURZ. unpublished results. 3 E. J. HEHXE. .4bjfr. Inr. Sump. Curbo/r)dr. Chm?., I’llfh, hiadison. ll’iscotuin, 4 hl. BROCKHAUS WWD J. LEHVMN, Corboh,dr. Ra., 53 (1977) 7-l-31.
:! K.
5 K. \3’ALLEhFEm
6 K.
AND
0.
P.
~~ALHOTRA. En:.vmes,
\V%LLENFEIS AND 0. P. hf,aLHomRA, W~LLENFELS AhD G. Kmz. &o&m.
(1974) 1.58.
(2nd edn.) 4 (1960) 409<30.
Adv. Curbohrdr. Ch*m.. 16 (1961) Z., 335 (1961) 559-572.
239-295. 7 K. 5 E. J. HEHRE, personal communicstlon. 3 R. Il. LEWIEL~Y, R. A. EARL. K. JWES, AND T. L. NAGABHUSHAW, Can. J. Cncm., 51 (1373) 19-26. ill K. ~‘ALLEF.FELS AND J LEHM~P.N, _/ustus Lirbiqz Ann Chrm. 635 (1960) 166-177. 11 hl. L. WOLFROM AND A. THOWSO%, AifefhtidJ Carbohrdr. Chum.. 2 (1963) 21 I-215. 12 R U. LEWIEUS. *Veerhods Curboh@. Chem.. 2 (1963) 221-222. !3 P. A. LEVENE \hD R. S. TIPSON, 1. Bol. Chern.. 93 (1931) 631-64-t; F. SHAFIZADEH, Merhods
Carbokt.dr.
Ckrv.,
2 (1963) 409410
THE
STEREOCHEMISTRY
D-GALACTAL, JOCHEN
OF
CATALYZED
LEHMANN
Amsterdam
THE BY
- PrInted
In Bclglum
ADDITION
OF: GL\.CEROL
TO
/3-D-GALACTOSIDASE*
AND BERJT
Chemrsches
dcr
(Received
ILh.
Unrtersrtcr.
FrArtrp
,m Bwrsgau
iw public-atmn, January
1976;
10th.
1977)
ABSTRACT
On
incubation
N Irh B-D-Ealactosidase,
I-dcoxy,olyc?rol-I-yl it was shown moiety.
that rhe hydrogen
In contrast
phenol
with
D-palacral-24
atom
introduced
to Ihis stereospecific.
peracetylated
1, catalyzed
enzyme-carnlyzed
/?-D-Galacrosidase
from (2)
D-,oZlkICt3l
t0
EstV~ericlliu
IO
W.
the reaction
of
acid. kr hich yields phenyl was iho\! n tc entail
obsened
rcqulres.
with
to mediate
arises whether
(3).
D-@ucal’
a proton-donating
of C-2,
1s stereospccilic
‘.
borh a
(AH)
calion
the stereospecific transfer to the
Because of would
ha\ ing the fi-o-anonwic
be either
HBS shown carbon-bound 4S h. As
hydrogen
Hehre’
spectroscopy exchange applied. bound
(as
(probably
could
not
as a probe.
can or.ly
find
and
at C-7) any
when
hydrogen,
‘Uncommon
CurbuhJdr.
synthesis Results
Res.,
when
even in solution
the highly
Incu’r,ated
(5 Cl/mol)
D,O.
oiGlycosldase 65-72,
ActIon, (precedmg
sensitive.
and
technique
IV.
paper),
For
Part
III.
set J. Lehmnnn
and
is
of carbon-
me preferred
I -yl 3-deoxy-B-c-!r,.\o-hexopyranoside-~-~ Pan
for
‘H-n.m.r.
IOU and that
radiolabelllng
of high sl)ecific activity.
it
exchnnsc
in ibaler-l
usinp
to yield reaction
e.kperimenrs’,
did not
in water-r
of I -deouyglycerol-
53 (1957)
addition
we assume that the eschangc rate is estrcmely
be detected
As 2-deo\v-D-/>-so-hexopyranosides
enzymic
rhe protona-
icater or &cerol.
the overall
when
’ in
ring.
2-deo? y-D-arubitto-hexose
exchange
ha\c
probably
a + b), the ques[lon
in B). In carlb?r, qualitatwe
‘-deo\y-D-/~,xo-he~o~~
or I-yl
of ihe enzyme’
(e.g.,
acceptor
configuration’-‘.
cis (as in A) or tratts
that
reactions reaction
or not and, if ir is, whether
uon occurs from abobe or below the plane of the pyranoid 3 product
of waler
I -deouy@lycerol-
A% the
group
of a 2-deoxy@lycosyl
the formarion
the protowtion
Ihe addltlon and
Correspondins
respectively. and
fi-D-glucosidass
in rhe vicinity
’ *’ catalyzes
coii
2-deoxy-D-lr,ao-he\ose
gVcZ
2-dcoxy-j3-o-Irxo-hekopyranoside
order
addIt-on.
by p-tolusnesulfonic
analqsls.
to the a&con
and a cis additlon.
&‘COrd
been
_elycerol yielded
plus
By ‘H-n.m.r.
on C -3 is rranwelated
3,4,6-tri-O-acetvl-2-deo~y-~-o-~~~.~~-he~op~~ano~ide-_ tram
(1)
‘-deo\y-8-o-lr,xo-heuopyranosidc-I(S)-lf.
the from
E. Sshrowr.
74
J. En.-,ne
L.EHhIAI%N,
B.
ZlEGW
EKyrrw
I
I
_*-_o H
A
n
ki
-0.
‘\
a
product
___c
‘.
+
--$_
,,,2-- f4
l-4
I
--\i
H
l-l
l
H
DroalAcl
--
A-
Enzyme
Enzyme
b
(1
I and glycerol in order to elucidate B-D-galactosldase.
the stereochemistry
of the addition
catalyzed
Compound 1 !\as prepared by starting with isopropyl 2,3,~,6-tz~z-0-acetyi-aD-galactopyraooside-,3-d (4) plus its C-2 epimerg, namely, isopropyl 2,3,4,6-tetra-Uac~tyl-r-D-ta~opyraoosidc-‘-d (5). and applying the reaction sequence depicted. RC
P
k-si 0
0
OR
4 =
8-l-S
=I3“7
+
Oc$l.2~
(R
0
RO
OR
OCt.ler
H
D
I 11)
5
HBr/AcOH
tr? 1 Z”/ALOH
AC)
131 MeONa
(1)
MeGtia
12)
IR-lXdH+)
(51
AqO
I
CHaOR
Ra+OR
+
‘O&OR
D
OR 6R= BK
=
R”G
R’
H
7R=
H
1
AC
SR=
AC
2R=
R=
1OR
H,R’=
D
R’=H =
Ac,R’=
D
by
iWDITION OF GLYCEROL TO D-GALACTAL
75
Glycerol was cnzymiwlly added to 1, and the resulting, crude glycoside I -yl Z-deovy-8-o
was isolated by preparative by acetylating the crude giycoside 11, and separating the acetylated product by preparative t.l.c. The 2,3-dl-U-acetyl-I-deo.uyglycerol-l-y1 3,4,6-tri-0-acetyl-2-d~o~~-~-o-/~.~~-he~op~~3noside-~(~)-~ (12) so obtained was uniform according to analysis by g.1.c. Nonlabelled 12 (13) w3s 1. Comparison of the corresponding sections of the ‘H-o.m.r. spectrn of 12 and 13 (see Fig. I) clearly indicated thar. in compounds 1 and 2, the proton added through enzymic reaction occupies the equatorial position. Thus, it is proved that alternative pathway B is correct, and that the enzyme-catalyzed
t.1.c. Final purification
was achieved
spcz~m of 11 and 13 In chlorofarm-d.
Fig. 1. Partrd. 270-hli-iz.
‘H-n.m.r.
Fig. 2. Partul, 270-MHz.
‘l-f-n.m r. spectra of I4 and 15 In chloroform-d.
J. LEHhWNN,
76 reaction
of glycerol,
finding
corresponds
experimental rirher
and, most probably, quell with
approach,
In order to exclude
of water also, with 2 is a ~rans addition.
the results
showed
bj P-o-glucosidase
that
obtained
the reaction
or a-D-glucosidsss
the possibilily
by Hehre’,
who,
of ~-gl~cal
(Canfi’i&
with
rrupicafis),
of a substrate-induced,
chjrd
by acid-catalyzed
sdditrdn
14 ~vns compared
of pheiol
uolabellcd
acctyl-2-deouy-~-~-l~~ro-l~euopyraooside’” (see Fig. 2) indicated addition
protonation
results
presence, reacrlon
of these esperimenls
at the binding
Genm71
sample
Secliocs
of almost
of
equal
(10).
of phenyl the
Com-
3,3,6-tri-0-
‘H-n.m.r.
amounts
f,hlercb),
spectra
of cix- and frans-
-
Opttcal
points
(b.p.
data
Fourier-transform
Boehringer at 40’
in 0.1~
chloride
for
and
The
the
I paper of 3%
v,ith
6:4:3
of SE 52 on
gas. and flame-ionization
hle,Si)
obtained
\ierz
with
a
Vatian
stated.
E.xhrriclriu coli was purchased
the
suspension
purification.
brlffer
reaction
\\a
(7). -
All
(pH
6.8)
with
complete
syrup was dissolved
(K’)
A mixture
ranoside-_ 3-d (4)
(_s) NTIS stirred
reG&.tal IR-120
lsith sulfuric
as the carrier
and
phosphate
141
silica gel FZjA
(S m&ml;
enzyme that
specific
reacrions
contained
!!ere
IO-%i
IO- ‘M 2-mercsptoethanol.
f-IY-D-g3kKtOpJ
D-talop~,rsnosrdo-_$-t19 IVhen
sodium
on
No.
in glass columns
from
further
a Perkin-Elmer
by charrir.g
unless othenhise
Germany),
(6) aruf D-t&w-3-d
?.?.~,6-re[ra-0-acet~
rrith Ambrrlirc
group4
benzsz-mzthanol: B. 4:i D, ether: and E, 4:l
on Whatman
internal
\b;is used \\ithout
o-Go&low-3-d
evaporated.
the addition
actrlating.
ulth
itas effected
$-D-Galactosidase*
(hlannheim.
30 Lilmg)
Derection
spectrometer
-
.-I. I:I
(v/v):
win g nitrosen
I!7&hlHz,
(100 ml).
an
was performed
acetate-3-propsnol-water:
(\a1 conducted
(CHCI,-(/,
Eu_r:lw rearriorrr.
T.l.c.
was performed
G AIV-DhlCS, N.m.r.
napneGum
60-70’).
G.1.c.
detecuon.
performed
that can trlsper
or even
iterr: measured
systemj
ethyl
chromatography
butanol-pyridine-crater.
rotations
jol\ent
C. 25.13.7
petroleum
Chromosorb
of a group
3s ;1 binding,
are uncorrected.
\sirh tbc followng
benzenz-methanol: Paper
seves
to su,ogcst the
stem
at C-2.
blelting
ether-light
ilrith P-D-gaktosidase
site of the enzyme,
m~tl~ocis.
pofarimeter.
from
(15).
11 is a mixture
to 2. and that normally
the substltuent
actr\*iry
of C-2 in
was synthesized
products.
The
acid.
that
catalyzed
water,
is a Irons addition.
to 3,4.6-tn’-c-s~tyl-D-,oalactal-2-d
wirh an authenlic.
This
by a di!ierent,
2, phenvl 3,4,6-rri-O-acetvl-3-deouv-~-o-/~~.~~-hcsop~ranoside-~-d(ll) pound
B. ZiEGER
and
M sodium (t.l.c.,
methoxide sollent
in water,
resin for 3 days at 90-95.
(25.3 g) of isopropyl
isopropyl A),
tetrs-O-acetyl-rin abs. thz
and the solution (t.l.c.,
solvent
methanol
solution
\ias
was treated
A). Neutraliza-
ADDITION
tion
OF GLYCEROL
\\ith sodium
as a syrup,
hydroxide,
identified
77
TO D-GALACTAL
filtration,
and Iyophilization
A mixture
-
with ’ ’ sodium poured
into
of 6 and 7 (9.25 g) \ras cotxcrted
acetate (4 .2 g) and acetic anhydride ice-water
(200 ml).
stirring.
ibith
and
with
\\ater and ice-colcl ether.
as colorless
m.p.
141’ ; n.m.r.
nesdks, (m,
2 H. H-3.4),
a mixture resulting
the solid
was
Compound
data (CDCI,.
5.72-5.35
into
(,4S g). The
washed successively 4AO-4.90
6 plus 7 (9.25 g)
I I-/3-D-rc;lop~ fan092
2-d (8) atrdpettru-0-acef
Petlia-0-acet~‘l-8-D-ga~aclop~~ranose2-d (9).
yielded
by g.1.c. and paper chromatography.
-CH,-).
filtered
NZS
otT, and
8 (6 g) was obtained
60 hlHz):
(m, 3 H, H-5,
of 8 and 9 solution
T
4.16 (bs. I H. H-l),
and 7.75-8.10
(m,
15 H.
-OCOCH,). The wre
filtrate
~$35 extracted
combined,
with
dichloromethane
\iashed
~UCC~SSIV~~~
~lth
(3 x 100 ml) and water (I x 100 ml), dried (hl$O,), (8.5 g) as a crude
oil \\hich
with -KF,o HBr;glnc.
(m.
4.37-I
I5H.
95 (m.
IO give 9
-
A mixture
bromides’
2 H.
of 8 and
5.5~6.20
from silica gel \ilth
60 hlHz): (m.
3 H,
p) was
reduced ’ 3 ~irh ztnc (30 g) in
‘. \i hlch liaj
data (CDCI,,
H-3.4).
9 (l-l.5
of the corresponding
T
H-5.
3.33
(d.
-CH?-).
I H,
E
jol\ent H-l.
J,.,
and 7.55-8.10
-OCOCH,).
( 5). -
D-Ga/acta/-2-d sodrum
metholide
(sollent
.-I). The
filtered.
Solvent
(309
(IO).
i0 (3.5 2. ~X’?O); n.m.r.
I.7 Hz).
the extracts
itt motto,
and aaporated
acetic acid (160 ml) to give 10 as a crude oil. Elution
afforded
and
hbdrogencarbo-arc
acetic acid (20 ml) into a mixture
tctra-O-acctyl-r-D-he\opyr3nosgl 5Pb
jodlum
was not purified.
3,~,6-Tri-O-ac~/~,l-D-ga/ac/~/-~-d con\crted
(4 x 50 ml),
aqueous
mg. 939,“).
10 (575 mg)
Compound
in abs. methanol
(20 ml).
solution
was made
removal
left an oil lrhich
m.p.
neutral
~lth
dsacctylated
\%a
the reaction
being
Amberlite
crysrallized
from
\\ith
monltored
IR-1’0
(H’)
ethyl
acetate
0.1~
by t.1.c. resin, and to give
1
103-10-I‘.
~,3-Di-O-acer~~~-~-~i~o~~g~l~cero~-i-_~~i 3.~.6-iri-0-aC~f~~i-~-~~10.~~1-~-D-l~~O-~l~.~Op~m.utoside (13). - j3-D-Galactosidase (0.5 ml) \\as added to a solution of 2 (0.5 g) and glycerol
(5 ml) tn buffer (ZOO ml). .Aiw
(monitored
by t.1.c. in solvent
Iyophilized.
Cornpound
chromatography
@l.c.:
(3 ml) in pyrldine addition
solLent
~a< heated
as a ycllo~
C):
it itas
2-I h, the mixture
and evaporation
from
oil after repeated
then
scetglated residue
prsparati\e-layer
with
acetic
ttz racuo.
was evaporated
the oily
disappeared
to 90‘. tilrcred.cooled.and
left a product
anh>dridc Repeated which
~‘3s
D) to gl\c 13 (106 mg); n.m.r. dais: T 4.i-i (m. I H. H-lc. J,,_,,3 5.0, (m, ! H. H-3a. .135,3rr 12 Hz, JJd,:* 5.5 HA). 5.U(m.
1 H,
purified H-l),
6 was obtained
(3 m!). After
oi toluene
I4 days at -IO’. 2 had almost
C). The solution
on p.l c. plates (solvent
J ,cl,lo 8 Hz), 6.11 (m,
I H, H-S),
and 7.35-5.05
(m.
Hz.
IS H, -OCOCH,).
2,3-Di-0-acetvl-I -dco.vy-D-g/_weroII-~*/ 3,~,6-tri-O-acef_~,l-,‘-dt10.~~.-P-D-I~ \ohexop~,ranosid=--2-d (12). - Compound 12 was prepared and isolated as forcompound 13, by (I.5 quent
use
ml),
of
1 (309 mg),
temperature
ncetylation,
40’.
glycerol lncubnrlon
12 (73 mg):
n.m.r.
(3 ml)
in
butTer
time:
7 dabs,
data:
~4.74
(I20
ml),
affordins (m.
I H.
P-D-galactosidsse 11. and.
H-4).
5.0’
by subs+ (m,
I H,
78
J.
LEHhlANN,
B. ZIEGBR
H-30, Jsm 5 Hz, Jwe 3 Hz), 5.44 (m, 1 H, H-la, J,.,21 2.5 Hz, J,,2 4.3 Hz), 6.21 (m, 1 H, H-5), 8.03 (m, I H, H-2), and 7.85-8.0 (m. 15 H, -OCOCH3). Both 12 and 13 could be deacetylated Hith M sodium methoxide in abs. methanol to gi\e chromatographically homogeneous 3) and 11, respectively. PhenJd 3,4,6-tri-O-acet~~I-Z-deo.~~~-ar-D-lyxo-hexop~~ranoside-2-d (14). The synthesis of IS was performed according to a modified method by WaUenfels and acid (0.05 g) Lehmann lo. Part (75 mp) of a melt of phenol (I g) and p-tolueacsulfonic was heated with 10 (70 mg) for I 5 set OF a water bath (60”) with vigorous shaking; the melt became dark-colored. (The mivturz must not be allowed to get black.) Ice-cold, aqueous sodium hydrogencarbonate (50 ml) and chloroform (30 ml) were then added; the aqueous layer was extracted several times with chloroform. The extracts were combined. dashed ~iith Hater (2 x 50 ml), dried (higSOJ, and evaporated in racuo, to give 1-l as an 011. Cqstsllization from ethanol yielded 14 (55 mg. 5S%) in chromatogaphically pure form, m.p. 127’; n.m.r. data: T 2.79 (m, 5 H, -Ph-I-F), 4.24 (m, I H. H-I. J, ,2s I Hz, J, ,2rr3.5 Hz). 4.48 (m, I H, H-3, J,,, 3.0 Hz), 4.60 (m, 1 H, H-4), 5.71 (m, 1 H, H-5). 5.9-I (m. 2 H, -CH,-), 7.74 (m. I H, H-2x1, Jzo,Le 13 Hz, Jza,, 12.5 Hz). 7.89 (m, I H, H-S-, JZr,3 5.5 Hz. J2+,J I Hz), 7.S-1 (s, 3 H, -OCOCH,),
7.97 (s, 3 H. -OCOCH,),
and 8.07 (s, 3 H, -OCOCH,).
ACKNOWLEDGXIENTS
We rhank Prof. Dr. K. \\‘alfenfe!s
the Deutxhe
for a sample of pure P-D-gaiactosidase,
and
for financial support.
Forschungsgemrinschaft
REFERENCES 1
J.
LEHMAhN
AND
E.
SCHRoTER.
Curbohbdr.
Rex.
23 (1972) 359-365.
\~‘ALLE%FELS END G. KURZ. unpublished results. 3 E. J. HEHXE. .4bjfr. Inr. Sump. Curbo/r)dr. Chm?., I’llfh, hiadison. ll’iscotuin, 4 hl. BROCKHAUS WWD J. LEHVMN, Corboh,dr. Ra., 53 (1977) 7-l-31.
:! K.
5 K. \3’ALLEhFEm
6 K.
AND
0.
P.
~~ALHOTRA. En:.vmes,
\V%LLENFEIS AND 0. P. hf,aLHomRA, W~LLENFELS AhD G. Kmz. &o&m.
(1974) 1.58.
(2nd edn.) 4 (1960) 409<30.
Adv. Curbohrdr. Ch*m.. 16 (1961) Z., 335 (1961) 559-572.
239-295. 7 K. 5 E. J. HEHRE, personal communicstlon. 3 R. Il. LEWIEL~Y, R. A. EARL. K. JWES, AND T. L. NAGABHUSHAW, Can. J. Cncm., 51 (1373) 19-26. ill K. ~‘ALLEF.FELS AND J LEHM~P.N, _/ustus Lirbiqz Ann Chrm. 635 (1960) 166-177. 11 hl. L. WOLFROM AND A. THOWSO%, AifefhtidJ Carbohrdr. Chum.. 2 (1963) 21 I-215. 12 R U. LEWIEUS. *Veerhods Curboh@. Chem.. 2 (1963) 221-222. !3 P. A. LEVENE \hD R. S. TIPSON, 1. Bol. Chern.. 93 (1931) 631-64-t; F. SHAFIZADEH, Merhods
Carbokt.dr.
Ckrv.,
2 (1963) 409410