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Isolation of Vibrio, alginolyticus mutants defective in the respiration-coupled Na+ pump
Vol. 114, No, 1, 1983 July
BIOCHEMICAL
AND
BIOPHYSICAL
RESEARCH COMMUNICATIONS
18, 1983
ISOLATION
Pages
OF VIBRIO
ALGINOLYTICUS
MUTANTS DEFECTIVE Ns+ PUMP Hajime
Research
Institute
for
Received
May 23,
113-118
IN THE RESPIRATION-COUPLED
Tokuda
Chemobiodynamics, Chiba Chiba, Japan
University,
l-8-1
Inohana,
1983
When the respiration-coupled Na+ pump functions, V. alginolyticus is able to grow in the presence of an extremely high concentration of proton conductor, carbonylcyanide m-chlorophenylhydrazone. The mutants which became sensitive to the proton conductor were isolated and examined in regard to thy Na+ pump activity. Although the activity of a respiration-dependent H extrusion by the mutants is comparable to that by the wild type, the Naf pump activity of the mutants is significantly reduced. Furthermore, NADH oxidase of membranes isolated from the mutants is altered to be independent of Na+. It is concluded that the mutants have an altervion in the respiratory chain which simultaneously results in a lack of the Na pump.
Our extrudes 2).
recent not
studies only
Although
H ' but
the
pH values
place
at
electrochemical transport alkaline
of solutes(1,
the
marine
bacterium
Na+ as an immediate of
H+ by the
tested,
alkaline potential
that
also
extrusion
physiological mainly
revealed
the
pH.
of Na+ even 2) but
also
result
respiratory
of
Since
in the
presence
growth ' itself
Na+
at
extrusion
pump
all took
generates
of CCCP, not became
(1,
occurred
Na+
the
alginolyticus
respiration
chain
respiration-coupled
external
V. -
only
resistant
an active
to CCCP at
pH. The
interest
molecular since
respiration-coupled
'Tokuda,
H.,
mechanism it
may
give
H+ extrusion
and Unemoto,
T.,
of
the
respiration-coupled
another which
insight is
manuscript
Na' into
presently
pump is
the
mechanism
a subject
of
of
great of
the
controversy
in preparation.
m-chlorophenylhydrazone; TPP+, tetraAbbreviations: CCCP, carbonylcyanide TMPD, N,N,N',N'-tetramethyl p-phenylene diamine; MB, phenylphosphonium ion; acid; Tricine, tris(hydroxymethyl)methyl2-(N-morpholino)ethanesulfonic tris(hydroxymethyl)aminomethane; NTG, N-methyl-N'-nitro-Nglycine; Tris, nitrosoguanidine.
113
0006-291X/83 $1.50 Copyright 0 I983 by Academic Press, Inc. All rights of reproduction in any form reserved.
BIOCHEMICAL
Vol. 114, No. 1, 1983
(3,
From this
4).
reason,
the
AND
BIOPHYSICAL
isolation
RESEARCH COMMJNlCATlONS
of mutants
defective
in the
Na+ pump
was attempted. NATERIALS
AND HKTHODS
1. alginolyticus 138-2 and its derivatives were grown aerobically at 37OC on either a rich (5) or a synthetic medium(6) buffered as specified. Mutants unable to grow at pH 8.5 on the rich medium containing 5 UM CCCP were induced by NTG (50 Mg/ml) at 37°C for 10 min. The mutants were isolated after two units/ml) enrichment (7) in the rich medium cycles of penicillin (8~10~ containing 5 kM CCCP and 50 mM Tricine-NaOH, pH 8.5. Selection was performed by replica plating. Glucose was omitted from the seletive plates to minimize a pH drop during growth. H+ flux induced by oxygen pulse and active extrusion of Na+ were assayed as reported(2) using K+-depleted and Na+-loaded cells prepared as described (8) from cells grown on the synthetic medium. Membrane fractions were isolated as described(5) from cells grown on the NADH oxidase activity was determined by following the synthetic medium. decrease in absorbance at 340 nm as described(5). 22?JaC1 (carrier-free) was obtained from NEN. CCCP and NADH (sodium salt) MES and Tricine were products of Nakarai Chemical were purchased from Sigma. co. RRSULTS The rationale coupled
highly
correlation
between
possesses in
expected
presence
unable
8.5.
1.
Naf
pump
and
As shown 6.5,
to
in
where
the
Na+
between
the wild
Nap
On the
other
activity,
the
were
significantly
results
are
permeable
not
type
of
similar
Na+ the
functions.
Close
Na+ pump was confirmed halophilic
-V.
respiration-
of V. alginolyticus
pump
bacterium,
alginolyticus
mutants
and is
lacking
has
than
the
the
little
by also
able
to
Na+ pump were
pH 8.5,
where
concentrations that
determined
concentrations among
of
were
mutants, the
114
strains
for
tested.
CCCP at
Nap 1 and
has
with wild
pH
significantly
Na+ pump
the
NTG
5 kM CCCP at
not
determined with
by
designated
of CCCP necessary
the
obtained
concentrations
activity, isolated
were
presence
inhibitory
and the at
medium
in
minimal
inhibitory
presented,
to H+ were
that
in the
growth
another
Therefore,
the
pump
lower
the and
by penicillin
hand,
minimal
the
on CCCP-containing
1,
different 2.
to
defective
growth.
grow
Table
when
costicola,
CCCP.
enrichment
that
growth
that
of
mutants
finding'
CCCP
to show CCCP-sensitive
mutagenesis
of
CCCP-resistant
an analogous the
on our to
finding
Mutants
pH
isolation
resistant
subsequent
grow
the
Na+ pump was based
becomes
the
for
a maximum the
type.
mutants Although
to make membranes The isolated
mutants
Vol. 114, No. 1, 1983
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
1. Minimal inhibitory concentration for CCCP. Aerobic growth of the listed strains in the presence of various concentrations of CCCP was examined in the rich medium buffered with 50 mM of either MES-NaOH, pH 6.5, or Tricine-NaOH, pH 8.5.
Table
CCCP (PM)
Strain pH 6.5
were
Wild
4
>80
Nap1
3
14
Nap2
2
11
able
to
grow
and required wild
examined
of
at to
was added
facilitate
transient
strains
tested
mutants
to
was pulsed
(Fig.
extrude in
the
pulse
C).
H+ was comparable presence
of
Hf
CCCP instead
at the
frequency
of
three
(2).
its to
results that
of of
that
the
type.
TPP+,
B
of 10 -8 .
strains
were
anaerobic
potential, in the
the
ability
of
When oxygen suspensions
C
0.5min
115
a
all
1 Respiration;dependent H+ extrusion (A to C) and Na+ pump-dependent H+ uptake (D to F). Na -loaded cells of the wild type (A and D), Nap 1 (B and E) and Nap 2 (C and F) were resuspended at final concentrations of 0.52, 0.66 and 0.59 mg protein/ml, respectively, in 2 ml of assay mixture containing 0.4 M NaCl, 20 mM glycerol, 0.2 mM Tricine-NaOH, pH 8.5, and either 2.5 mM TPP+ (A to C) or 20 BM CCCP (D to F). The cell suspensions were kept anaerobic at 25OC under the stream of nitrogen. Changes in medium pH were monitored by pH-electrode as reported (2). Oxygen pulse was performed at pH 8.5 by the addition of 100 ~1 of air-saturated 0.4 M NaCl. Fig.
was
TPP+ which
extent
indicate wild
of the
When oxygen
electrical
similar
of carbon
those
membrane-permeable
occurred
to
source to
as reported
against
These
sole
identical
chain
containing
H+ extrusion
A to
obtained
respiratory method
suspensions
of
were
were
Na+ by the
extrusion
as the
properties
revertants
the
1,
on lactose
i\-iikA
8.5
cell
not
These
by oxygen
anaerobic to
and
H+ and
pH 8.5
but
growth.
The spontaneous
Extrusion
rapid
on sucrose
Na+ for
type.
pulsed
pH 8.5
of
BIOCHEMICAL
Vol. 114, No. 1, 1983
;
-
AND
%.v-----*
BIOPHYSICAL
RESEARCH COMMUNICATIONS
--
OO
5
0
5 Time
0
5
(min)
Fig. 2 Sensitivity of Na+ extrusion to CCCP. Na+-loaded cells of the wild of type (A), Nap 1 (B) and Nap 2 (C) were resuspended at final concentrations 3.09, 2.31 and 2.40 mg protein/ml, respectively, in 50 mM Tricine-NaOH, pH 8.5, containing 0.4 M NaCl. The cell suspensions equilibrated with 22NaCl (1x104 cpm/kl) on ice were transferred to 25'C and incubated for 5 min in the presence of 20 mM glycerol. At 0 time, addition of none (O), 10 mM KC1 (0) or 10 mM KC1 plus 10 kM CCCP (A) was made. The level of 22Na+ retained by cells was determined at given times by filtering and washing an aliquot (50 ~1) of the cell suspension as reported (1, 2). Values are given in per cent of radioactivity at 0 time after correction for background radioactivity due to non-specific binding to filters.
the
wild
type
driven
by the
(Fig.
1,
Na+ pump-generated
loaded
V. -
previousy
alginolyticus
concentration
decreased
pump
at
gradient
upon
H+ uptake
potential
which
In contrast,
(2).
significantly
and,
the
extrusion
inhibited
by CCCP.
defective
performed
in only
2) and shown
the
portion
pH 0.5
contrast,
(1, quickly
a considerable
type.
in
characteristic
in
the
case
was
such a of
mutants
1, E and F). As reported
are
the
membrane
H+ uptake
Na+ pump-dependent (Fig.
D) demonstrated
the
addition
of K+ (closed
this
by
results
to
the
Na+ pump and that Na'/H'
antiport
alteration
in the
respiratory
membrane
fractions
(Table
2).
The
maximum
activity
specifically
required
Na+ for
its
In the by
and
that
in
C) the
was
the
Na+
A).
In
completely
isolated
of Na+ by the
wild
mutants mutants
is
system.
chain
116
Na+ against
circles).
(B
extrusion
Possible
Na+-
was performed
indicate the
and
CCCP (triangles
mutants
clearly
by a CCCP-sensitive
cytoplasmic
Na+ extrusion
insensitive Na+
of
K+-depleted
2,
most
therefore,
These
Fig.
extruded
of
of
in
of
the
NADH oxidase as reported
mutants of (5).
was examined the
wild K+,
type
or other
BIOCHEMICAL
Vol. 114, No. 1, 1983
AND
BIOPHYSICAL
RESEARCH COMMUNICATIONS
Table
2. NADH oxidase activity of membranes isolated from the wild type and the mutants. NADH oxidase activity was measured at 30°C as described under "Materials and Methods" in 1 ml of assay mixture containing 20 mM Tris-HCl, pH 7.5, 0.2 mM NADH and 0.2 M of KC1 or NaCl. The assay was started by the addition of membranes to give a final concentration of 30 Ug protein/ml. oxidase
NADH
(umol/min/mg
protein)
Membranes KC1
NaCl
Wild
0.82
1.74
Nap1
1.61
1.64
Nap2
1.28
1.34
cations
(5),
was ineffective
NADH oxidase
activity
as a replacement
of
the
mutants
+ Na .
for
was completely
On the
other
independent
hand,
the
of Na+.
DISCUSSION As expected the
from
Na+ pump,
Na+
pump.
the
mutants
The
Na+
1 and 2).
H+.
of
the
membrane
independent
of
Na+
been
in
-V.
shown
resides
TMPD which pump (21, redox (9)
must
2). (5)
donates it
energy nor
altered
energization
of
data the
localized
at
to
cytochrome
found
that
re-reduction
the
Since the Na+
"TMPD-bypass"
involving
NADH:quinone
oxidoreductase
the
mutants pump the
Na+ pump.
this
to
Na+-dependent as the
Since
is
be
derived site.
also
possess
the
the
(91,
it
of
quite
the
dependent the
be reported
is
of Na+
TMPD by endogeneous
neither
Detailed
Na+-
addition
energization
from
be
Na+-dependence
Although
results),
Na+ pump will 117
segment
to has
that
this
of oxidized
(unpublished
to
indicate
c caused
TMPD oxidase
seems
was altered
found
segment.
mutants
The NADH
NADH oxidase
recently
and
to extrude
Na+ pump.
of
strongly
in the
the
ability
mutants
and
uptake
from
the the
oxidoreductase
electrons
in
retain
the
was
H+
absent
to
from
These
represents
occur.
did
be specific
NADH:quinone
was later did
completely
which
growth
to CCCP were defective
The Na+-requirement
costicola
Na+ pump is
CCCP-resistant
CCCP-dependent
mutants
isolated
Na+ pumpl.
the
sensitive
was almost
mutation
at
between
performs
the
of NADH oxidase
that
which
fractions
exclusively
likely
became
contrast,
(Table
respiration-coupled dependence
correlation
which pump
In
Therefore,
oxidase
close
Na+ extrusion
CCCP-insensitive (Figs.
the
the
on Na+
TMPD-dependent formation studies
elsewhere.
of on
the
BIOCHEMICAL
Vol. 114, No. 1, 1983
AND
BIOPHYSICAL
RESEARCH COMMUNICATIONS
ACKNOVLEDGhWVTS
This Science
work
was
and Culture,
supported
by
a grant
the
from
Ministry
of
Education,
Japan. REFERENCES
1. 2. 3. 4. 5. 6. 7. 8. 9.
Tokuda, 265-271. Tokuda, Mitchell, WikstrBm, Unemoto, 1389-1395. Tokuda, 4198-4203. Gorini, Tokuda, 788-794. Unemoto,
H., H.,
and
Unemoto,
T.
(1981)
Biochem.
Biophys.
Res.
Commun. 102,
and Unemoto, T. (1982) J. Biol. Chem. 257, 10007-10014. P. (1979) Eur. J. Biochem. 95, l-20. M., and Krab, K. (1980) Curr. Top. Bioenerg. 10. 51-101. T., Hayashi, M., and Hayashi, M. (1977) J. Biochem.
H.,
Nakamura,
T.,
and
Unemoto,
L., and Kaufman, H. (1960) Science H., Sugasawa, M., and Unemoto; T.,
and Hayashi,
M. (1979)
T.
131, 604-605. T. (1982) J.
J. Biochem.
118
(1981)
85,
Biochemistry Biol.
1461-1467.
Chem.
82, 20, 257,
BIOCHEMICAL
AND
BIOPHYSICAL
RESEARCH COMMUNICATIONS
18, 1983
ISOLATION
Pages
OF VIBRIO
ALGINOLYTICUS
MUTANTS DEFECTIVE Ns+ PUMP Hajime
Research
Institute
for
Received
May 23,
113-118
IN THE RESPIRATION-COUPLED
Tokuda
Chemobiodynamics, Chiba Chiba, Japan
University,
l-8-1
Inohana,
1983
When the respiration-coupled Na+ pump functions, V. alginolyticus is able to grow in the presence of an extremely high concentration of proton conductor, carbonylcyanide m-chlorophenylhydrazone. The mutants which became sensitive to the proton conductor were isolated and examined in regard to thy Na+ pump activity. Although the activity of a respiration-dependent H extrusion by the mutants is comparable to that by the wild type, the Naf pump activity of the mutants is significantly reduced. Furthermore, NADH oxidase of membranes isolated from the mutants is altered to be independent of Na+. It is concluded that the mutants have an altervion in the respiratory chain which simultaneously results in a lack of the Na pump.
Our extrudes 2).
recent not
studies only
Although
H ' but
the
pH values
place
at
electrochemical transport alkaline
of solutes(1,
the
marine
bacterium
Na+ as an immediate of
H+ by the
tested,
alkaline potential
that
also
extrusion
physiological mainly
revealed
the
pH.
of Na+ even 2) but
also
result
respiratory
of
Since
in the
presence
growth ' itself
Na+
at
extrusion
pump
all took
generates
of CCCP, not became
(1,
occurred
Na+
the
alginolyticus
respiration
chain
respiration-coupled
external
V. -
only
resistant
an active
to CCCP at
pH. The
interest
molecular since
respiration-coupled
'Tokuda,
H.,
mechanism it
may
give
H+ extrusion
and Unemoto,
T.,
of
the
respiration-coupled
another which
insight is
manuscript
Na' into
presently
pump is
the
mechanism
a subject
of
of
great of
the
controversy
in preparation.
m-chlorophenylhydrazone; TPP+, tetraAbbreviations: CCCP, carbonylcyanide TMPD, N,N,N',N'-tetramethyl p-phenylene diamine; MB, phenylphosphonium ion; acid; Tricine, tris(hydroxymethyl)methyl2-(N-morpholino)ethanesulfonic tris(hydroxymethyl)aminomethane; NTG, N-methyl-N'-nitro-Nglycine; Tris, nitrosoguanidine.
113
0006-291X/83 $1.50 Copyright 0 I983 by Academic Press, Inc. All rights of reproduction in any form reserved.
BIOCHEMICAL
Vol. 114, No. 1, 1983
(3,
From this
4).
reason,
the
AND
BIOPHYSICAL
isolation
RESEARCH COMMJNlCATlONS
of mutants
defective
in the
Na+ pump
was attempted. NATERIALS
AND HKTHODS
1. alginolyticus 138-2 and its derivatives were grown aerobically at 37OC on either a rich (5) or a synthetic medium(6) buffered as specified. Mutants unable to grow at pH 8.5 on the rich medium containing 5 UM CCCP were induced by NTG (50 Mg/ml) at 37°C for 10 min. The mutants were isolated after two units/ml) enrichment (7) in the rich medium cycles of penicillin (8~10~ containing 5 kM CCCP and 50 mM Tricine-NaOH, pH 8.5. Selection was performed by replica plating. Glucose was omitted from the seletive plates to minimize a pH drop during growth. H+ flux induced by oxygen pulse and active extrusion of Na+ were assayed as reported(2) using K+-depleted and Na+-loaded cells prepared as described (8) from cells grown on the synthetic medium. Membrane fractions were isolated as described(5) from cells grown on the NADH oxidase activity was determined by following the synthetic medium. decrease in absorbance at 340 nm as described(5). 22?JaC1 (carrier-free) was obtained from NEN. CCCP and NADH (sodium salt) MES and Tricine were products of Nakarai Chemical were purchased from Sigma. co. RRSULTS The rationale coupled
highly
correlation
between
possesses in
expected
presence
unable
8.5.
1.
Naf
pump
and
As shown 6.5,
to
in
where
the
Na+
between
the wild
Nap
On the
other
activity,
the
were
significantly
results
are
permeable
not
type
of
similar
Na+ the
functions.
Close
Na+ pump was confirmed halophilic
-V.
respiration-
of V. alginolyticus
pump
bacterium,
alginolyticus
mutants
and is
lacking
has
than
the
the
little
by also
able
to
Na+ pump were
pH 8.5,
where
concentrations that
determined
concentrations among
of
were
mutants, the
114
strains
for
tested.
CCCP at
Nap 1 and
has
with wild
pH
significantly
Na+ pump
the
NTG
5 kM CCCP at
not
determined with
by
designated
of CCCP necessary
the
obtained
concentrations
activity, isolated
were
presence
inhibitory
and the at
medium
in
minimal
inhibitory
presented,
to H+ were
that
in the
growth
another
Therefore,
the
pump
lower
the and
by penicillin
hand,
minimal
the
on CCCP-containing
1,
different 2.
to
defective
growth.
grow
Table
when
costicola,
CCCP.
enrichment
that
growth
that
of
mutants
finding'
CCCP
to show CCCP-sensitive
mutagenesis
of
CCCP-resistant
an analogous the
on our to
finding
Mutants
pH
isolation
resistant
subsequent
grow
the
Na+ pump was based
becomes
the
for
a maximum the
type.
mutants Although
to make membranes The isolated
mutants
Vol. 114, No. 1, 1983
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
1. Minimal inhibitory concentration for CCCP. Aerobic growth of the listed strains in the presence of various concentrations of CCCP was examined in the rich medium buffered with 50 mM of either MES-NaOH, pH 6.5, or Tricine-NaOH, pH 8.5.
Table
CCCP (PM)
Strain pH 6.5
were
Wild
4
>80
Nap1
3
14
Nap2
2
11
able
to
grow
and required wild
examined
of
at to
was added
facilitate
transient
strains
tested
mutants
to
was pulsed
(Fig.
extrude in
the
pulse
C).
H+ was comparable presence
of
Hf
CCCP instead
at the
frequency
of
three
(2).
its to
results that
of of
that
the
type.
TPP+,
B
of 10 -8 .
strains
were
anaerobic
potential, in the
the
ability
of
When oxygen suspensions
C
0.5min
115
a
all
1 Respiration;dependent H+ extrusion (A to C) and Na+ pump-dependent H+ uptake (D to F). Na -loaded cells of the wild type (A and D), Nap 1 (B and E) and Nap 2 (C and F) were resuspended at final concentrations of 0.52, 0.66 and 0.59 mg protein/ml, respectively, in 2 ml of assay mixture containing 0.4 M NaCl, 20 mM glycerol, 0.2 mM Tricine-NaOH, pH 8.5, and either 2.5 mM TPP+ (A to C) or 20 BM CCCP (D to F). The cell suspensions were kept anaerobic at 25OC under the stream of nitrogen. Changes in medium pH were monitored by pH-electrode as reported (2). Oxygen pulse was performed at pH 8.5 by the addition of 100 ~1 of air-saturated 0.4 M NaCl. Fig.
was
TPP+ which
extent
indicate wild
of the
When oxygen
electrical
similar
of carbon
those
membrane-permeable
occurred
to
source to
as reported
against
These
sole
identical
chain
containing
H+ extrusion
A to
obtained
respiratory method
suspensions
of
were
were
Na+ by the
extrusion
as the
properties
revertants
the
1,
on lactose
i\-iikA
8.5
cell
not
These
by oxygen
anaerobic to
and
H+ and
pH 8.5
but
growth.
The spontaneous
Extrusion
rapid
on sucrose
Na+ for
type.
pulsed
pH 8.5
of
BIOCHEMICAL
Vol. 114, No. 1, 1983
;
-
AND
%.v-----*
BIOPHYSICAL
RESEARCH COMMUNICATIONS
--
OO
5
0
5 Time
0
5
(min)
Fig. 2 Sensitivity of Na+ extrusion to CCCP. Na+-loaded cells of the wild of type (A), Nap 1 (B) and Nap 2 (C) were resuspended at final concentrations 3.09, 2.31 and 2.40 mg protein/ml, respectively, in 50 mM Tricine-NaOH, pH 8.5, containing 0.4 M NaCl. The cell suspensions equilibrated with 22NaCl (1x104 cpm/kl) on ice were transferred to 25'C and incubated for 5 min in the presence of 20 mM glycerol. At 0 time, addition of none (O), 10 mM KC1 (0) or 10 mM KC1 plus 10 kM CCCP (A) was made. The level of 22Na+ retained by cells was determined at given times by filtering and washing an aliquot (50 ~1) of the cell suspension as reported (1, 2). Values are given in per cent of radioactivity at 0 time after correction for background radioactivity due to non-specific binding to filters.
the
wild
type
driven
by the
(Fig.
1,
Na+ pump-generated
loaded
V. -
previousy
alginolyticus
concentration
decreased
pump
at
gradient
upon
H+ uptake
potential
which
In contrast,
(2).
significantly
and,
the
extrusion
inhibited
by CCCP.
defective
performed
in only
2) and shown
the
portion
pH 0.5
contrast,
(1, quickly
a considerable
type.
in
characteristic
in
the
case
was
such a of
mutants
1, E and F). As reported
are
the
membrane
H+ uptake
Na+ pump-dependent (Fig.
D) demonstrated
the
addition
of K+ (closed
this
by
results
to
the
Na+ pump and that Na'/H'
antiport
alteration
in the
respiratory
membrane
fractions
(Table
2).
The
maximum
activity
specifically
required
Na+ for
its
In the by
and
that
in
C) the
was
the
Na+
A).
In
completely
isolated
of Na+ by the
wild
mutants mutants
is
system.
chain
116
Na+ against
circles).
(B
extrusion
Possible
Na+-
was performed
indicate the
and
CCCP (triangles
mutants
clearly
by a CCCP-sensitive
cytoplasmic
Na+ extrusion
insensitive Na+
of
K+-depleted
2,
most
therefore,
These
Fig.
extruded
of
of
in
of
the
NADH oxidase as reported
mutants of (5).
was examined the
wild K+,
type
or other
BIOCHEMICAL
Vol. 114, No. 1, 1983
AND
BIOPHYSICAL
RESEARCH COMMUNICATIONS
Table
2. NADH oxidase activity of membranes isolated from the wild type and the mutants. NADH oxidase activity was measured at 30°C as described under "Materials and Methods" in 1 ml of assay mixture containing 20 mM Tris-HCl, pH 7.5, 0.2 mM NADH and 0.2 M of KC1 or NaCl. The assay was started by the addition of membranes to give a final concentration of 30 Ug protein/ml. oxidase
NADH
(umol/min/mg
protein)
Membranes KC1
NaCl
Wild
0.82
1.74
Nap1
1.61
1.64
Nap2
1.28
1.34
cations
(5),
was ineffective
NADH oxidase
activity
as a replacement
of
the
mutants
+ Na .
for
was completely
On the
other
independent
hand,
the
of Na+.
DISCUSSION As expected the
from
Na+ pump,
Na+
pump.
the
mutants
The
Na+
1 and 2).
H+.
of
the
membrane
independent
of
Na+
been
in
-V.
shown
resides
TMPD which pump (21, redox (9)
must
2). (5)
donates it
energy nor
altered
energization
of
data the
localized
at
to
cytochrome
found
that
re-reduction
the
Since the Na+
"TMPD-bypass"
involving
NADH:quinone
oxidoreductase
the
mutants pump the
Na+ pump.
this
to
Na+-dependent as the
Since
is
be
derived site.
also
possess
the
the
(91,
it
of
quite
the
dependent the
be reported
is
of Na+
TMPD by endogeneous
neither
Detailed
Na+-
addition
energization
from
be
Na+-dependence
Although
results),
Na+ pump will 117
segment
to has
that
this
of oxidized
(unpublished
to
indicate
c caused
TMPD oxidase
seems
was altered
found
segment.
mutants
The NADH
NADH oxidase
recently
and
to extrude
Na+ pump.
of
strongly
in the
the
ability
mutants
and
uptake
from
the the
oxidoreductase
electrons
in
retain
the
was
H+
absent
to
from
These
represents
occur.
did
be specific
NADH:quinone
was later did
completely
which
growth
to CCCP were defective
The Na+-requirement
costicola
Na+ pump is
CCCP-resistant
CCCP-dependent
mutants
isolated
Na+ pumpl.
the
sensitive
was almost
mutation
at
between
performs
the
of NADH oxidase
that
which
fractions
exclusively
likely
became
contrast,
(Table
respiration-coupled dependence
correlation
which pump
In
Therefore,
oxidase
close
Na+ extrusion
CCCP-insensitive (Figs.
the
the
on Na+
TMPD-dependent formation studies
elsewhere.
of on
the
BIOCHEMICAL
Vol. 114, No. 1, 1983
AND
BIOPHYSICAL
RESEARCH COMMUNICATIONS
ACKNOVLEDGhWVTS
This Science
work
was
and Culture,
supported
by
a grant
the
from
Ministry
of
Education,
Japan. REFERENCES
1. 2. 3. 4. 5. 6. 7. 8. 9.
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H., H.,
and
Unemoto,
T.
(1981)
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Biophys.
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