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Modification, permethylation and mass spectrometry of arginine-containing oligopeptides at the 100 nanomolar level
Vol. 45, No. 4, 1971
BIOCHEMICAL
MODIFICATION,
AND BIOPHYSICAL
PERMETHYLATION
AND
OF ARGININE-CONTAINING AT
Piet
A.
Leclercq”?,
Louis
“Institute
Received
for
August
THE
Lipid
100
C.
RESEARCH COMMUNICATIONS
MASS
SPECTROMETRY
OLIGOPEPTIDES NANOMOLAR
Smith+,
LEVEL
and
Dominic
M.
Research and +Department Baylor College of Medicine Houston, Texas 77025
Desiderio,
of
Jr.“‘*
Biochemistry
30, 1971 SUMMARY
The amino acid sequence of arginine-containing oligopeptides, including bradykinin, has been determined by mass spectrometry. The guanidino groups of the arginine residues in 100 nmoles of eptide were reacted with acetylacetone under mild conditions to produce l 8 -2-(4,6-dimethyl)pyrimidylornithine residues. I-Acetylation and N,s-permethylation then produced peptide derivatives that were suitable for vaporization. This procedure makes argininecontaining oligopeptides accessible for mass spectrometric sequence analysis. Sequence
analysis
stantially
facilitated
sodium to
be
applicable
exception
of
by
l4,2-permethylation
peptides (3),
up To
peptides to,
but
circumvent
enzymatic
arginine and
hydrazinolysis, dicarbonyl
nor
trypsin
lysine,
(c)
condensation
the
produce
with and
the
arginine appl
to group
the
N(6).
icable:
arginine
guanidino
acids,
single
residue
which
of
(2)
permethylated
peptides of
and
amino
from
are
conversion the
usual
information
approaches
to
(b)
(5),
iodide recently
the
acetylated
beyond
three
all
sub-
have
ornithine with
either by
mono-
or
compounds.
$ Present address: The Netherlands. Fellow
with or
of
including
refined
histidine
been
methyl
been of
sequence
difficulty,
hydrolysis
C-terminal
spectra
contained
neither this
and
has
utilizing
has
residues (4)
mass
spectrometry
(1)
containing
The
mass
procedure
methionine
arginine.
arginine-containing terminus
by
This
to
cysteine
*
oligopeptides
methylsulfinylmethide.
including
(a)
of
of
the
Department
Intra-Science
of
Chemistry,
Research
Foundation,
937
Eindhoven
University
1971-1975.
of
Technology,
Vol. 45, No. 4, 1971
For sation
the
sequencing
reactions
p reduced. and
BIOCHEMICAL
are
et
al.
(9)
is
possible:
(7-9)
employed
to
Thomas
et --*
(6)
pyrimidylornithine the
also
with
cleaves
methyl
termini. modified
group
the
and
silver
of
four
arginyl
We wish
to
at
the
modification
was
--et mg,
to
form
an
arginine
is
selective
(7)
al.
(7),
peptide
al.
(8)
and bond
Orn
(DMP)“.
ion
of
(the
Bacon
cleavage
utilized
undesirable
milder
resulting)
basic
quaternized
hydrazinolysis,
salt,”
a procedure
only
condensation
accomplished
oxide
residues
as of
report
by
date
and
They
catalyst.
bradykinin to
Lenard
from on
the
product Gallop
reported
both
of
sequence
the
Jj-
successfu
(lo),
and
the
permethy
c-
ation
peptides. report 100
and
which
1,2-cyclohexanedione
iodide
the
of
bonds.
mg)
is
et
“permethylat
by
conden-
derivative
Shemyakin
175-600 that
spectrometry,
1,1,3,3-tetraalkoxypropane
under
would
(l-3
the
as
Vetter-Diechtl
stated
of
This
peptides
been
mass
a unique
conditions
peptide
peptides
information
of
used.
guanidino
Permethylation argininyl
have
derivative
removed
which
such
arginine,
al
by
because
compounds
HCI.
convert
peptides
suited
reaction
alcoholic
conditions
unknown
best
B-Dicarbonyl
acetylacetone
and
of
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
on
the
nmolar
methyl
modification
level,
and
using
permethylat
acetylacetone
on for
iodide/methylsulfinylmethide
the
of
arg
arginine
carbanion
for
per-
methylation.
MATERIALS The are:
commercial
Arg.HCl*H20,
Chemical
Co.,
Chemical
Co.,
hexafluoroacetylacetone,
sources
of
Nutritional Los
the
AND
METHODS
compounds
Biochemicals;
Angeles;
utilized
in
Arg-Arge2HAc
PCR,
(SOC-0490), Inc.,
Gainesville,
” Abbreviations used are: AC = acetyl, Orn(DMP) = NG-2-(4,6-dimethyl)pyrimidylornithine, acid abbrezations.
938
TFA
(M-3265), Sigma
experiments
(F2O5O),
Ac-Ser-Arg-His-Pro*HAc.H20
; bradykinin*3HAc*H20
these
Chemical
Fla.;
= trifluoroacetyl, and
sodium
the
Fox Cycle
Co.; hydride
1,1,1,5,5,5(57%
OMe = methoxy, standard amino
Vol.
45,
No.
4, 1971
dispersion
in
chemicals
were
The
mineral
the
of
ul
at
100’
by
four
paper
1.0
ml
0.5
ten
minutes.
vacua
Acyl
at ion
of
the
avoid
removed
hours.
mixture
were
meter ionizing
were
under
in
as
optimal
was
and
the
the
mixture
point,
Schiff
bases,
heated
the
NaHCO3,
heated
this
an
acetylacetone, and
10%
mixture
at
hydrolyze
with
10 ~1
complete
of
utilized
peptide,
added
reaction
permethylation
acetylated
the
conditions
was
done
additional
3,5-dimethyl-2-
aqueous
was
in
removed
(6),
first
(2).
necessary aqueous
50 111 2% Ma2C03
phase
was
dried
and under
To
for
medium
the
with
nitrogen
in
amine
prevent
5 ul the
of
The
and
acyl
bradykinin,
modified
peptide
CF3COSC2H5 hood
groups
possible
e-acetylation (12).
reacted
free
at
the
45’
C for
reaction
before. reaction
employed
with
Other
suppliers.
(8)
each
extraction
during
peptides
dried
Low
the
ether
quaternization
C2H5SH
The
to
product
ion
trifluoroacetylation
two
by
al.
appeared order
and
N,O-Permethylat
(11)
dissolved
of were
reaction
added
was
Mass.
of
--et
nmoles
In
self-condensation
Beverly,
a variety
Vetter-Diechtl
The
The
modified
was
from
CH3COCH2COCH3
hours.
was
Co.,
COMMUNICATIONS
P205.
and
migration
PI
RESEARCH
At-q.
by
20
M CH3COOH
over
To
from
chromatography.
acetylphenol, --in
Chemical
TO 100
and
BIOPHYSICAL
obtained
reported
ethanol
C for
judged
grade
modifications.
95%
AND
Ventron
Orn(DMP)
procedure
following
20
oil),
reagent
Formation The
BIOCHEMICAL
conditions
for
permethylation
previously
described
(2).
resolution
mass
sample electron
accelerating temperature
varied
were
introduction energy
voltage
spectra by was
3.5 from
70
k V. 85O
direct
e V, ion
c to
obtained probe the
source 220’
on
an
into
ionizing
LKB 9000 the
ion
current
temperature
mass source.
60 was
spectro-
@A,
2SO”
The and
the
C and
the
probe
C.
RESULTS The
mass
spectra
of
the
derivatized
Arg,
939
Arg-Arg,
Ser-&g-his-Pro,
and
Vol. 45, No. 4, 1971
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
r IlISN31NI
940
Lo 3AIltWfd
N
BIOCHEMICAL
Vol. 45, No. 4, 1971
bradykinin
AND BIOPHYSICAL
(Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg)
RESEARCH COMMUNICATIONS
are
given
in
Figures
1-4,
respectively. In
all
the
spectra.
The
genesis
spectra, These of
Frequently,
1.
The
M-COOMe
at
Figure Arg-Arg 511
--m/e
The
(M),
piperazine
is
incomplete
methylation
ion
at
loss
406
(M-164),
m/e
l-terminal due
to
Orn(DMP)
150,
of
164,
derivatized
dominate
and
178
scheme
in
at
--m/e
arginine 322,
at
the
and
M-OMe
(R). Figure
are at
given
--m/e
291
158, peaks
the
loss
of
--m/e
293
and
541
peak
at
m/e
221
is
ascribed
The
527. at
l
the
- c the
346,
IJ/~
378,
482
are
of
is
543,
accompanied
to
to
ion 556 the
the
are
318,
sequence
correspond
--m/e
the
from
291, the
diketo-
because
dipeptide,
of
respectively.
[DMP-NH-(CH2)2-
s-terminal
arginine. at
from
--m/e the
420
(M-150),
diketo-
respectively. of
571,
derivatized
668
and
6%
satellite
methylated
fragments
Ser-Arg-His-
by the
from
serine the
series
32
+
peaks
All
these
mass
units
residue.
The
C-terminus. and
to
of
(M).
peaks
H3C-iH=CH-(CH2)3-N(CH3)-DMP
CH2-CH2-CO-
263,
the
result
observed
defined
by
of
fragment
scheme
from
at
fragments
and
methanol
peaks
Fragments
and
unmethylated
dipeptide
406,
derivatized
of
and
fragmentation The
of
molecular
cleavage
332
scheme
fragments.
Corresponding
3.
130,
occurrence
diketopiperazine to
m/e
Figure
fragmentation
the
Ions
496.
(~-178).
at
265
of
fragmentation
found
and
and
R from
ions
--m/e
279
via of
sequence
lower
136,
the
to N-terminal
--m/e
spectrum
at
(R)
R-2.
is
by
corresponds
found
in
occurring
(M)
defined
of
and 392
given
and
chain
107,
in
spectrum
at --m/e
portions
mass
--m/e
scheme
ion
is
at
235
are
are
R+l2
occurring
piperazine
Pro
--m/e
the
found
--m/e
of
The
indicated
side
263.
found
CH=CH-COOCH3]+, The
is
corresponding
are
at
fragmentation
sequence
570
the
found
molecular
C-terminus
The
at
2 contains
. and
ions
and
from
are
occur
spectrum
Figure
and
ions
these
ions
The in
fragments
The the
ion
at
1.
Vol. 45, No. 4, 1971
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNJCATIONS
2
cm w -4
942
.Y
Vol. 45, No. 4, 1971
The
l
- 9
group
in
arise
also
spectrum
are up
of
side
chain
the
from
to
mass
Figure
4.
983.
The
from
E - p
of
the
of
abundant
is
not
&-Terminal
peaks
in
at
m/e the
317,
the
345,
an
aromatic
511
and
627
superimposed
--m/e is
412
ions
corresponding
to
and
235,
lower to
(13).
1 - e
indicates
peaks”
cleavage
respectively.
two
All
“sequence
of The
However
these
771,
indicating
investigation.
units
743, fragment
Phe8
No &-terminal
under
14 mass
J-terminal
lower,
corresponding
fragments
610,
the
residue
units
bradykinin
l-terminal 442,
to
residue.
at
derivatized
414,
aromatic
14 mass
ions
of
to
assigned
at
peaks the
at
corresponding
is
first
occur
is
contains
pattern
--m/e
1013
671 and 917
--m/e
satellite
present
the
bonds
at
found
fragment
Orn(DMP)g
3 also
peaks”
satellites in
there
fragments
fragmentation
cleavage
abundant
when
tetrapeptide.
--m/e
bond
methylation
and
the
at
common
Figure
are
peak
is
s-terminal
“Sequence
residue
have
found.
Phe*
and
886,
incomplete
The
methylated
eighth
peaks
case
- _6y cleavage.
the
these
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
latter
(13).
spectrum
in
resulting
are
l
the
incompletely
given
858,
cleavage
of The
BIOCHEMICAL
genesis
, the
that
the
the
lack
N-terminus
peaks.
DISCUSSION The polar
expected
usefulness
guanidino
group
mass
spectra
presented
upon
electron
impact
particularly
with
fragments.
Possible
avoided
under In
all was
difficult
to
power
of
the
TFA-bradykinin In
an
attempt
The
very to
jj
to
- c
mass
Apparently In
group
was
the
may
the prevent
considerably increase
case
pyrimidyl
of
our
permethylation
of
the the
of than further,
group
the the the
of by
the the
residue
acid of
residues, side
has
chain
been
procedure
incompletely
bradykinin,
volatile
943
intensity
the
of
lieu
arginine amino
of
@-position
volatility
modified
the
--in
demonstrated
aromatic
and
spectrum
of
been
the
of
methylation more
the
of
cleavage
conditions
moiety has
that
(6)
a superimposed
methylate.
peptides
behavior
similar
controlled
noted.
to
in
above. is
dimethylpyrimidine
quaternization
the
TFA
the
arginine
respect
cases
material
of
of
Orn(DMP)
methylated residue
electron f-group $-acetyl guanidino
(2).
is
withdrawing as
The
we1 I. derivative.
group
was
Vol. 45, No. 4, 1971
derivatized inferior
with to
The acid
BIOCHEMICAL
CF3COCH2COCF3.
those
we
have
methylation
accessible of
oligopeptides
The
mass
spectra
of
arginine
of
these
derivatives
were
presented.
dimethylpyrimidine
residues
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
derivative to
our on
general the
100
makes
technique
for
nanomolar
level.
all
acylation
natural and
amino per-
ACKNOWLEDGMENTS The authors are grateful to K. Lyman and C. Weise for technical assistance. We acknowledge financial support from the National Institutes Health (GM-13901, NIH 69-2161, RR 259, and RR 254), The Robert A. Welch Foundation (Q-125 and Q-343), and the National Science Foundation (GB-25476).
REFERENCES 1. ::
4.
E. Vilkas and E. Lederer, Tetrahedron Lett., 6, 3088 (1868). P. A. Leclercq and D. M. Desiderio, Anal. Lett., 3, 305 (1971). M. L. Polan, W. J. McMurray, S. R. Lipsky and S. Lande, Biochem. Biophys. Res. Commun., 3, 1127 (1970). P. A. Leclercq and D. M. Desiderio, Biochem. Biophys. Res. Commun., in press. P. A. White and D. M. Desiderio, Anal. Lett., 4, 141 (1971). D. W. Thomas, B. C. Das, S. D. Gkro and E. Lederer, Biochem. Biophys. Res. Commun. , 32, 519 (1968). M. M. Shemyakix Yu. A. Ovchinnikov, E. I. Vinogradova, M. Yu. Feigina, A. A. Kiryushkin, N. A. Aldanova, Yu. B. Alakhov, V. M. Lipkin and B. V. Rosinov, Experientia, 23, 428 (1967). H. Vetter-Diechtl, W. Vetter, W. Richter and K. Biemann, Experientia,
65: 7. 8.
24, 9. 10. 11. 12. 13.
340
(1968).
V. Bacon, E. Jellum, W. Patton, W. Pereira and 8. Halpern, Biochem. Biophys. Res. Commun., 37, 878 (1569). J. Lenard and P. M. Gallop, Anal. Biochem., 2, 203 (1969). E. Schrblder and K. Libke, The Peptides, Academic Press, New York, 1965, p. 213-214. E. E. Schallenberg and M. Calvin, J. Amer. Chem. Sot., z, 2779 (1955). M. M. Shemyakin, Pure Appl. Chem., u, 313 (1968).
944
of
BIOCHEMICAL
MODIFICATION,
AND BIOPHYSICAL
PERMETHYLATION
AND
OF ARGININE-CONTAINING AT
Piet
A.
Leclercq”?,
Louis
“Institute
Received
for
August
THE
Lipid
100
C.
RESEARCH COMMUNICATIONS
MASS
SPECTROMETRY
OLIGOPEPTIDES NANOMOLAR
Smith+,
LEVEL
and
Dominic
M.
Research and +Department Baylor College of Medicine Houston, Texas 77025
Desiderio,
of
Jr.“‘*
Biochemistry
30, 1971 SUMMARY
The amino acid sequence of arginine-containing oligopeptides, including bradykinin, has been determined by mass spectrometry. The guanidino groups of the arginine residues in 100 nmoles of eptide were reacted with acetylacetone under mild conditions to produce l 8 -2-(4,6-dimethyl)pyrimidylornithine residues. I-Acetylation and N,s-permethylation then produced peptide derivatives that were suitable for vaporization. This procedure makes argininecontaining oligopeptides accessible for mass spectrometric sequence analysis. Sequence
analysis
stantially
facilitated
sodium to
be
applicable
exception
of
by
l4,2-permethylation
peptides (3),
up To
peptides to,
but
circumvent
enzymatic
arginine and
hydrazinolysis, dicarbonyl
nor
trypsin
lysine,
(c)
condensation
the
produce
with and
the
arginine appl
to group
the
N(6).
icable:
arginine
guanidino
acids,
single
residue
which
of
(2)
permethylated
peptides of
and
amino
from
are
conversion the
usual
information
approaches
to
(b)
(5),
iodide recently
the
acetylated
beyond
three
all
sub-
have
ornithine with
either by
mono-
or
compounds.
$ Present address: The Netherlands. Fellow
with or
of
including
refined
histidine
been
methyl
been of
sequence
difficulty,
hydrolysis
C-terminal
spectra
contained
neither this
and
has
utilizing
has
residues (4)
mass
spectrometry
(1)
containing
The
mass
procedure
methionine
arginine.
arginine-containing terminus
by
This
to
cysteine
*
oligopeptides
methylsulfinylmethide.
including
(a)
of
of
the
Department
Intra-Science
of
Chemistry,
Research
Foundation,
937
Eindhoven
University
1971-1975.
of
Technology,
Vol. 45, No. 4, 1971
For sation
the
sequencing
reactions
p reduced. and
BIOCHEMICAL
are
et
al.
(9)
is
possible:
(7-9)
employed
to
Thomas
et --*
(6)
pyrimidylornithine the
also
with
cleaves
methyl
termini. modified
group
the
and
silver
of
four
arginyl
We wish
to
at
the
modification
was
--et mg,
to
form
an
arginine
is
selective
(7)
al.
(7),
peptide
al.
(8)
and bond
Orn
(DMP)“.
ion
of
(the
Bacon
cleavage
utilized
undesirable
milder
resulting)
basic
quaternized
hydrazinolysis,
salt,”
a procedure
only
condensation
accomplished
oxide
residues
as of
report
by
date
and
They
catalyst.
bradykinin to
Lenard
from on
the
product Gallop
reported
both
of
sequence
the
Jj-
successfu
(lo),
and
the
permethy
c-
ation
peptides. report 100
and
which
1,2-cyclohexanedione
iodide
the
of
bonds.
mg)
is
et
“permethylat
by
conden-
derivative
Shemyakin
175-600 that
spectrometry,
1,1,3,3-tetraalkoxypropane
under
would
(l-3
the
as
Vetter-Diechtl
stated
of
This
peptides
been
mass
a unique
conditions
peptide
peptides
information
of
used.
guanidino
Permethylation argininyl
have
derivative
removed
which
such
arginine,
al
by
because
compounds
HCI.
convert
peptides
suited
reaction
alcoholic
conditions
unknown
best
B-Dicarbonyl
acetylacetone
and
of
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
on
the
nmolar
methyl
modification
level,
and
using
permethylat
acetylacetone
on for
iodide/methylsulfinylmethide
the
of
arg
arginine
carbanion
for
per-
methylation.
MATERIALS The are:
commercial
Arg.HCl*H20,
Chemical
Co.,
Chemical
Co.,
hexafluoroacetylacetone,
sources
of
Nutritional Los
the
AND
METHODS
compounds
Biochemicals;
Angeles;
utilized
in
Arg-Arge2HAc
PCR,
(SOC-0490), Inc.,
Gainesville,
” Abbreviations used are: AC = acetyl, Orn(DMP) = NG-2-(4,6-dimethyl)pyrimidylornithine, acid abbrezations.
938
TFA
(M-3265), Sigma
experiments
(F2O5O),
Ac-Ser-Arg-His-Pro*HAc.H20
; bradykinin*3HAc*H20
these
Chemical
Fla.;
= trifluoroacetyl, and
sodium
the
Fox Cycle
Co.; hydride
1,1,1,5,5,5(57%
OMe = methoxy, standard amino
Vol.
45,
No.
4, 1971
dispersion
in
chemicals
were
The
mineral
the
of
ul
at
100’
by
four
paper
1.0
ml
0.5
ten
minutes.
vacua
Acyl
at ion
of
the
avoid
removed
hours.
mixture
were
meter ionizing
were
under
in
as
optimal
was
and
the
the
mixture
point,
Schiff
bases,
heated
the
NaHCO3,
heated
this
an
acetylacetone, and
10%
mixture
at
hydrolyze
with
10 ~1
complete
of
utilized
peptide,
added
reaction
permethylation
acetylated
the
conditions
was
done
additional
3,5-dimethyl-2-
aqueous
was
in
removed
(6),
first
(2).
necessary aqueous
50 111 2% Ma2C03
phase
was
dried
and under
To
for
medium
the
with
nitrogen
in
amine
prevent
5 ul the
of
The
and
acyl
bradykinin,
modified
peptide
CF3COSC2H5 hood
groups
possible
e-acetylation (12).
reacted
free
at
the
45’
C for
reaction
before. reaction
employed
with
Other
suppliers.
(8)
each
extraction
during
peptides
dried
Low
the
ether
quaternization
C2H5SH
The
to
product
ion
trifluoroacetylation
two
by
al.
appeared order
and
N,O-Permethylat
(11)
dissolved
of were
reaction
added
was
Mass.
of
--et
nmoles
In
self-condensation
Beverly,
a variety
Vetter-Diechtl
The
The
modified
was
from
CH3COCH2COCH3
hours.
was
Co.,
COMMUNICATIONS
P205.
and
migration
PI
RESEARCH
At-q.
by
20
M CH3COOH
over
To
from
chromatography.
acetylphenol, --in
Chemical
TO 100
and
BIOPHYSICAL
obtained
reported
ethanol
C for
judged
grade
modifications.
95%
AND
Ventron
Orn(DMP)
procedure
following
20
oil),
reagent
Formation The
BIOCHEMICAL
conditions
for
permethylation
previously
described
(2).
resolution
mass
sample electron
accelerating temperature
varied
were
introduction energy
voltage
spectra by was
3.5 from
70
k V. 85O
direct
e V, ion
c to
obtained probe the
source 220’
on
an
into
ionizing
LKB 9000 the
ion
current
temperature
mass source.
60 was
spectro-
@A,
2SO”
The and
the
C and
the
probe
C.
RESULTS The
mass
spectra
of
the
derivatized
Arg,
939
Arg-Arg,
Ser-&g-his-Pro,
and
Vol. 45, No. 4, 1971
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
r IlISN31NI
940
Lo 3AIltWfd
N
BIOCHEMICAL
Vol. 45, No. 4, 1971
bradykinin
AND BIOPHYSICAL
(Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg)
RESEARCH COMMUNICATIONS
are
given
in
Figures
1-4,
respectively. In
all
the
spectra.
The
genesis
spectra, These of
Frequently,
1.
The
M-COOMe
at
Figure Arg-Arg 511
--m/e
The
(M),
piperazine
is
incomplete
methylation
ion
at
loss
406
(M-164),
m/e
l-terminal due
to
Orn(DMP)
150,
of
164,
derivatized
dominate
and
178
scheme
in
at
--m/e
arginine 322,
at
the
and
M-OMe
(R). Figure
are at
given
--m/e
291
158, peaks
the
loss
of
--m/e
293
and
541
peak
at
m/e
221
is
ascribed
The
527. at
l
the
- c the
346,
IJ/~
378,
482
are
of
is
543,
accompanied
to
to
ion 556 the
the
are
318,
sequence
correspond
--m/e
the
from
291, the
diketo-
because
dipeptide,
of
respectively.
[DMP-NH-(CH2)2-
s-terminal
arginine. at
from
--m/e the
420
(M-150),
diketo-
respectively. of
571,
derivatized
668
and
6%
satellite
methylated
fragments
Ser-Arg-His-
by the
from
serine the
series
32
+
peaks
All
these
mass
units
residue.
The
C-terminus. and
to
of
(M).
peaks
H3C-iH=CH-(CH2)3-N(CH3)-DMP
CH2-CH2-CO-
263,
the
result
observed
defined
by
of
fragment
scheme
from
at
fragments
and
methanol
peaks
Fragments
and
unmethylated
dipeptide
406,
derivatized
of
and
fragmentation The
of
molecular
cleavage
332
scheme
fragments.
Corresponding
3.
130,
occurrence
diketopiperazine to
m/e
Figure
fragmentation
the
Ions
496.
(~-178).
at
265
of
fragmentation
found
and
and
R from
ions
--m/e
279
via of
sequence
lower
136,
the
to N-terminal
--m/e
spectrum
at
(R)
R-2.
is
by
corresponds
found
in
occurring
(M)
defined
of
and 392
given
and
chain
107,
in
spectrum
at --m/e
portions
mass
--m/e
scheme
ion
is
at
235
are
are
R+l2
occurring
piperazine
Pro
--m/e
the
found
--m/e
of
The
indicated
side
263.
found
CH=CH-COOCH3]+, The
is
corresponding
are
at
fragmentation
sequence
570
the
found
molecular
C-terminus
The
at
2 contains
. and
ions
and
from
are
occur
spectrum
Figure
and
ions
these
ions
The in
fragments
The the
ion
at
1.
Vol. 45, No. 4, 1971
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNJCATIONS
2
cm w -4
942
.Y
Vol. 45, No. 4, 1971
The
l
- 9
group
in
arise
also
spectrum
are up
of
side
chain
the
from
to
mass
Figure
4.
983.
The
from
E - p
of
the
of
abundant
is
not
&-Terminal
peaks
in
at
m/e the
317,
the
345,
an
aromatic
511
and
627
superimposed
--m/e is
412
ions
corresponding
to
and
235,
lower to
(13).
1 - e
indicates
peaks”
cleavage
respectively.
two
All
“sequence
of The
However
these
771,
indicating
investigation.
units
743, fragment
Phe8
No &-terminal
under
14 mass
J-terminal
lower,
corresponding
fragments
610,
the
residue
units
bradykinin
l-terminal 442,
to
residue.
at
derivatized
414,
aromatic
14 mass
ions
of
to
assigned
at
peaks the
at
corresponding
is
first
occur
is
contains
pattern
--m/e
1013
671 and 917
--m/e
satellite
present
the
bonds
at
found
fragment
Orn(DMP)g
3 also
peaks”
satellites in
there
fragments
fragmentation
cleavage
abundant
when
tetrapeptide.
--m/e
bond
methylation
and
the
at
common
Figure
are
peak
is
s-terminal
“Sequence
residue
have
found.
Phe*
and
886,
incomplete
The
methylated
eighth
peaks
case
- _6y cleavage.
the
these
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
latter
(13).
spectrum
in
resulting
are
l
the
incompletely
given
858,
cleavage
of The
BIOCHEMICAL
genesis
, the
that
the
the
lack
N-terminus
peaks.
DISCUSSION The polar
expected
usefulness
guanidino
group
mass
spectra
presented
upon
electron
impact
particularly
with
fragments.
Possible
avoided
under In
all was
difficult
to
power
of
the
TFA-bradykinin In
an
attempt
The
very to
jj
to
- c
mass
Apparently In
group
was
the
may
the prevent
considerably increase
case
pyrimidyl
of
our
permethylation
of
the the
of than further,
group
the the the
of by
the the
residue
acid of
residues, side
has
chain
been
procedure
incompletely
bradykinin,
volatile
943
intensity
the
of
lieu
arginine amino
of
@-position
volatility
modified
the
--in
demonstrated
aromatic
and
spectrum
of
been
the
of
methylation more
the
of
cleavage
conditions
moiety has
that
(6)
a superimposed
methylate.
peptides
behavior
similar
controlled
noted.
to
in
above. is
dimethylpyrimidine
quaternization
the
TFA
the
arginine
respect
cases
material
of
of
Orn(DMP)
methylated residue
electron f-group $-acetyl guanidino
(2).
is
withdrawing as
The
we1 I. derivative.
group
was
Vol. 45, No. 4, 1971
derivatized inferior
with to
The acid
BIOCHEMICAL
CF3COCH2COCF3.
those
we
have
methylation
accessible of
oligopeptides
The
mass
spectra
of
arginine
of
these
derivatives
were
presented.
dimethylpyrimidine
residues
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
derivative to
our on
general the
100
makes
technique
for
nanomolar
level.
all
acylation
natural and
amino per-
ACKNOWLEDGMENTS The authors are grateful to K. Lyman and C. Weise for technical assistance. We acknowledge financial support from the National Institutes Health (GM-13901, NIH 69-2161, RR 259, and RR 254), The Robert A. Welch Foundation (Q-125 and Q-343), and the National Science Foundation (GB-25476).
REFERENCES 1. ::
4.
E. Vilkas and E. Lederer, Tetrahedron Lett., 6, 3088 (1868). P. A. Leclercq and D. M. Desiderio, Anal. Lett., 3, 305 (1971). M. L. Polan, W. J. McMurray, S. R. Lipsky and S. Lande, Biochem. Biophys. Res. Commun., 3, 1127 (1970). P. A. Leclercq and D. M. Desiderio, Biochem. Biophys. Res. Commun., in press. P. A. White and D. M. Desiderio, Anal. Lett., 4, 141 (1971). D. W. Thomas, B. C. Das, S. D. Gkro and E. Lederer, Biochem. Biophys. Res. Commun. , 32, 519 (1968). M. M. Shemyakix Yu. A. Ovchinnikov, E. I. Vinogradova, M. Yu. Feigina, A. A. Kiryushkin, N. A. Aldanova, Yu. B. Alakhov, V. M. Lipkin and B. V. Rosinov, Experientia, 23, 428 (1967). H. Vetter-Diechtl, W. Vetter, W. Richter and K. Biemann, Experientia,
65: 7. 8.
24, 9. 10. 11. 12. 13.
340
(1968).
V. Bacon, E. Jellum, W. Patton, W. Pereira and 8. Halpern, Biochem. Biophys. Res. Commun., 37, 878 (1569). J. Lenard and P. M. Gallop, Anal. Biochem., 2, 203 (1969). E. Schrblder and K. Libke, The Peptides, Academic Press, New York, 1965, p. 213-214. E. E. Schallenberg and M. Calvin, J. Amer. Chem. Sot., z, 2779 (1955). M. M. Shemyakin, Pure Appl. Chem., u, 313 (1968).
944
of