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Enzyme catalysed oxidation of ferrocene compounds
C23 Journal of Organometallic Chemistry, 134 (1977) C23-C26 0 Ebvier L&qUO~ S.A., Lae 7 Printed in The Nethedzds
Preliminary
communication
ENZY.MB CATALYSBD
OXIDATION
OF FERROCENE
COmOTJNDS
Roger Epton, Michael E. Hobson and George EIarr* Department of Physical Sciences, The Polytechnic, WV1 1LY (Great Britain) (Received
25th,
April
Wolverhampton,
1977)
Summary A facile substituted has been
transformation
ferrocenes
effected
the native
IS
known
to
give
and a series
to the corresponding
by hydrogen
or immobilized
Peroxidase,
of ferrocene
peroxide
of
ferriciniun
ions
in the presence
of
enzyme
horseradish
peroxidase.
in the presence
of hydrogen
peroxide,
to catalyse oxidation
of aromatic
the oxidation
products
depending
mines
prinarilg
and phenols
on the nature
of the substituentEl1. We report and several phthalnte
the oxidation
substituted
buffer
in the presence 0.6%
in
water)
ferrocenes,
(pH 6.1) with of horseradish
peroxide
peroxidase
in aqueous
The oxidation
solutionC2,31, and on addition
(HRP)
of
2
was allowed
concentrated
of ferricinium
correspondence
peroxide
methanol
aqueous
diamrninetetrathiocyanatochromate(II1)
* To whom
of ferrocene
in 50% methanol
hydrogen
of BBP and hydrogen
of ferrocene
a precipitate
temperature
-
(5.0 x 1GD2 m?M) (Sigma
Type
II,
as the catalyst.
The addition solution
at room
gave
to a yellow a blue
to proceed solution
(ammonium
for 4h
of ammonium
Reineckate)
diamninetetrathiocyanatochromate(II1)
should
be addressed.
u -d
P
C25
(yield
59%).(i,r:idcgticaI
The oxidation
-was deposited_ and gave (111)
that of an authentic
was repeated
hydioxymethylferriciniiun
(yield,
and hydrogen in a short
44%).
Control
peroxide
time
by hydrogen
were
experiements
necessary.to
but some oxidation
The rates
of oxidation
(equation
diamminetetrathiocyanatochromate
the absence
in
showed
effect
=%J=
-FcR + HZ02
of RRP,
did occur
of ferrocene
1; R=CH20H,
sample[4])
-with ferrocenemethanol
CHXeOH,
FcR+
that both
HRp
the oxidation
The backgrounds oxidation
(4h).
peroxide,
the 4h period
alcohols
with
of ferrocene
was negligible
after
48h
over
[5].
and the ferrocene-
CMe2OH)
were
determined
(1)
Fc = ClSHSFe (Table
1) by following
ferrocene
greater
of ferrocene convenience
of immobilized
enzyme.
acid hydrazide suspension
by hydrogen
of the immobilized was
stirred
rates
system
the bound
used
relative
We thank
at 25O,
was nonitored
and maximum
attached
via an acid
of reaction enzyme
to that
Koch-Light
azide
enzyme,
ion was effected
peroxide
gel network[6],
groups,
the supernatant
of enzyme
at 619 um for
to the ferricinium
RRP was
poly(acryloylmorpholine)
peroxide
of absorbance
and at 630 nm for the ferrocene-alcohols.
Oxidation with
the change
in tZle presence
to an activated which
contained
coupling
ferrocene
the solution
and
the initial
In the solvent
had 20% activity
of the native
A
and hydrogen
?vas centrifuged
at 619 nm to give (Table 1).
route,
per unit
weight
enzyme.
for a Research Studentship (to M!I.E.H.).
1.
A-S.
Brill
in Comprtihensive
Biological
3. Lelievre, sci.,
c. 3.
J.A. Page
5.
6.
R. Epton, in press.
Stqtz, ..
R. Gabonaud,
C.R.
Acad.-
1455. -J. Amer.
M. Rosenblum,
Chem.
(1973)
LI.Florkin and E.H.
Chem.
Sot.,
;
6146.
c. Le Feuvre 276
(1972)
and G. Wilkinson,
G. Wilkinson, J. Amer.
-~.:T :
Volume-14
Ansterd.am, 1966.
C. Le Feuvre.and
Ser C, 275
74 (1952), 4.
Elsevier,
Biochemistry,
Edited-by
Oxidations,
pp 447-449, 2.
:.;
.
References
Sot.,
E1.C. Whiting
74 (1952)
and R. Gabonaud,
and R.B; Woodward,
2125. C.R. Acad.
Sci.,
Ser C
9. M.E.
Hobson
and G. Marr,
Biochem.
Sot. Trans.,
Preliminary
communication
ENZY.MB CATALYSBD
OXIDATION
OF FERROCENE
COmOTJNDS
Roger Epton, Michael E. Hobson and George EIarr* Department of Physical Sciences, The Polytechnic, WV1 1LY (Great Britain) (Received
25th,
April
Wolverhampton,
1977)
Summary A facile substituted has been
transformation
ferrocenes
effected
the native
IS
known
to
give
and a series
to the corresponding
by hydrogen
or immobilized
Peroxidase,
of ferrocene
peroxide
of
ferriciniun
ions
in the presence
of
enzyme
horseradish
peroxidase.
in the presence
of hydrogen
peroxide,
to catalyse oxidation
of aromatic
the oxidation
products
depending
mines
prinarilg
and phenols
on the nature
of the substituentEl1. We report and several phthalnte
the oxidation
substituted
buffer
in the presence 0.6%
in
water)
ferrocenes,
(pH 6.1) with of horseradish
peroxide
peroxidase
in aqueous
The oxidation
solutionC2,31, and on addition
(HRP)
of
2
was allowed
concentrated
of ferricinium
correspondence
peroxide
methanol
aqueous
diamrninetetrathiocyanatochromate(II1)
* To whom
of ferrocene
in 50% methanol
hydrogen
of BBP and hydrogen
of ferrocene
a precipitate
temperature
-
(5.0 x 1GD2 m?M) (Sigma
Type
II,
as the catalyst.
The addition solution
at room
gave
to a yellow a blue
to proceed solution
(ammonium
for 4h
of ammonium
Reineckate)
diamninetetrathiocyanatochromate(II1)
should
be addressed.
u -d
P
C25
(yield
59%).(i,r:idcgticaI
The oxidation
-was deposited_ and gave (111)
that of an authentic
was repeated
hydioxymethylferriciniiun
(yield,
and hydrogen in a short
44%).
Control
peroxide
time
by hydrogen
were
experiements
necessary.to
but some oxidation
The rates
of oxidation
(equation
diamminetetrathiocyanatochromate
the absence
in
showed
effect
=%J=
-FcR + HZ02
of RRP,
did occur
of ferrocene
1; R=CH20H,
sample[4])
-with ferrocenemethanol
CHXeOH,
FcR+
that both
HRp
the oxidation
The backgrounds oxidation
(4h).
peroxide,
the 4h period
alcohols
with
of ferrocene
was negligible
after
48h
over
[5].
and the ferrocene-
CMe2OH)
were
determined
(1)
Fc = ClSHSFe (Table
1) by following
ferrocene
greater
of ferrocene convenience
of immobilized
enzyme.
acid hydrazide suspension
by hydrogen
of the immobilized was
stirred
rates
system
the bound
used
relative
We thank
at 25O,
was nonitored
and maximum
attached
via an acid
of reaction enzyme
to that
Koch-Light
azide
enzyme,
ion was effected
peroxide
gel network[6],
groups,
the supernatant
of enzyme
at 619 um for
to the ferricinium
RRP was
poly(acryloylmorpholine)
peroxide
of absorbance
and at 630 nm for the ferrocene-alcohols.
Oxidation with
the change
in tZle presence
to an activated which
contained
coupling
ferrocene
the solution
and
the initial
In the solvent
had 20% activity
of the native
A
and hydrogen
?vas centrifuged
at 619 nm to give (Table 1).
route,
per unit
weight
enzyme.
for a Research Studentship (to M!I.E.H.).
1.
A-S.
Brill
in Comprtihensive
Biological
3. Lelievre, sci.,
c. 3.
J.A. Page
5.
6.
R. Epton, in press.
Stqtz, ..
R. Gabonaud,
C.R.
Acad.-
1455. -J. Amer.
M. Rosenblum,
Chem.
(1973)
LI.Florkin and E.H.
Chem.
Sot.,
;
6146.
c. Le Feuvre 276
(1972)
and G. Wilkinson,
G. Wilkinson, J. Amer.
-~.:T :
Volume-14
Ansterd.am, 1966.
C. Le Feuvre.and
Ser C, 275
74 (1952), 4.
Elsevier,
Biochemistry,
Edited-by
Oxidations,
pp 447-449, 2.
:.;
.
References
Sot.,
E1.C. Whiting
74 (1952)
and R. Gabonaud,
and R.B; Woodward,
2125. C.R. Acad.
Sci.,
Ser C
9. M.E.
Hobson
and G. Marr,
Biochem.
Sot. Trans.,