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Studies on complex compounds-IV copper complexes of quinazolone hydrazides
IHORG.
MUCL.
CHEM.
LETTERS
Vol.
3,
pp.
603-607,
1967.
Pergamon Press
Ltd.
Printed
In
Great
Brlteln~
STUDIES ON COMPLEX COMPOUNDS-IV COPPER COMPLEXES OF QUINAZOLONE C. H. Misra, Department
Surendra
of Pharmacology
S. Parmar and R. C. Arora
and Therapeutics,
Lucknow University,
Lucknow
(Recelv~ 9 June |96~ In revised ~
Co-ordination tubercular properties Sorkin et al(2), reported
of the complexes
study four complexes
3, India
Contrary tO the findings of
and Kuhn and Zillekan(W) of thiosemicarbazones
of copper(II)
have
by
from secondary amines.
2-methyl-3-(4'-benzhydrazide)-4-quinazolones as antitubercular
College
14 S ~ t ~ b e r ;967)
of isoniazid(1).
chelation with sulphur and nitrogen present
K. G. Medical
with copper has been shown to enhance anti-
Ginzras et al(3),
synthesis
HYDRAZIDES 1
In the
halide with some have been synthesized
compounds. EXPERIMENTAL
Preparation 2-Methyl-3-(~'-benzhydrazide)-~-quinazolones sized as reported earlier(5). shaking ethanolic quinazolone
The complexes were pmepared by
solution of CuCI2.2H20
hydrazide
and an appropriate
in a I:i molar ratio(6).
separated out were collected by filtration and finally with ether. chemical
analysis
were synthe-
The color,
The complexes which
and washed with ethanol
solubility,
melting point and
data of these copper complexes
are shown in
Table I. iSupported by a research grant from the State Council of Scientific and Industrial Research, Lucknow. Correspondence regarding this publication should be addressed to Professor S. S. Parmar. 603
604
STUDIES OH COMPLEX COMPOUNDS-IV
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~> H
12
Vol, 3, Me. 12
STUDIES ON COMPLEX COMPOUNDS-IV
605
Infra-red spectr a The infra-red spectra of the complexes were obtained with KBr films using Perkin-Elmer Infracord Spectrophotometer.
The
energies and intense bands between 700-3500 cm -I for each of the complexes are given in Table II. 2-Methyl-3-(4'-benzhydrazide)-4quinazolone was used for comparison. TABLE II FREQUENCIES(cm -I) ASSIGNMENT FOR COPPER COMPLEXES
Compound
I
II
III
IV
NH 2 Stretching
NH 2 Deformation
3124 3028
1638
1614
3124 3028
1625
1601
3126 3028
1635
1611
1638
1611
1668
1627
3192 3028
V
CO Stretching
3283 3185
Compound numbers are as reported in Table I. Compound V denotes 2-methyl-3-(4'-benzhydrazide)-4-quinazolone(parent ligand). RESULTS AND DISCUSSION The elemental analysis of these complexes have indicated that the quinazolone hydrazides and cupric chloride react in the ratio of i:i. The infra-red spectra of the complexes show only two bands at 3124 cm -I and 3028 cm -I in the NH 2 stretching region. The -CONHNH 2 grouping in the parent ligand~ 2-methyl-3-(4'-benzhydra-
606
STUDIES ON COMPLEX COMPOUNDS-IV
zide)-4-quinazolone,
Vol. 3, No. 12
accounts for two bands at 3283 cm -I and
3185 cm -I. The resulting shift to the lower frequencies
indicates
possible involvement of NH group for co-ordination. At present it is difficult to establish the specific nitrogen participating in the complex formation.
Inability of 2-methyl-3-phenyl-4-quinazolone
(devoid of hydrazide moiety) and cupric chloride to form complex compound,
in our separate experiment,
favours participation of the
hydrazide moiety. Assuming that -CONHNH 2 group takes part in the complex formation,
the lowering of CO stretching has indicated the
involvement of CO group of the hydrazide moiety in such complex formation.
The CO group at position 4 of the quinazolone nucleus
is less active and is located at a distance from the nitrogen atoms of the hydrazide group.
Lowering of the NH deformation band provides
additional support for the involvement of NH 2 group for the binding of the oxygen to the metal ion. Since no extra peak was observed in the infra-red spectra of the quinazolone hydrazide(Compound V~ Table II) it is difficult to assess the availability of H atom of the secondary NH group for co-ordination. indicated the possible structure~
These results have
as shown in Table I~ for the
copper complexes of 2-methyl-3-(4'-benzhydrazide)-4-quinazolones. Similar structure has been suggested by Sorkin et al(2) for the copper complex of isoniazid. Acknowledgments The authors wish to express their appreciation to Professor K. P. Bhargava and Dr. J. P. Barthwal for their advice and encouragement and to Drs. M. L. Dhar and Nitya Anand of Central Drug Research Institute,
Lucknow for pmoviding facilities for micro-
analysis and infra-red measurements.
Vol. 3, No. 12
STUDIES ON COMPLEX COMPOUNDS-IV
607
REFERENCES i.
V. C. BARRY,
Chemotherapy
Butterworths, 2.
of Tuberculosis.
p. 131.
London(1964).
E. SORKIN~ W. ROTH, and H. ERLENMEYER,
Helv.
Chim. Acta.
35, 1736(1952). 3.
B. A. GINZRAS,
R. W. HORNAL~and
C. H. BAYLEY,
Can. J. Chem.
3.__88, 712(1960). 4.
R. KUHN and F. ZILLEKAN,
U.S. Patent No. 2,695,911(1954).
5.
S. S. PARMAR and R. C. AROEA,
6.
C. H. MISRA,
S. S. PARMAR~
Chem. 28, 147(1966).
Can. J. Chem. 4__~, 2100(1966).
and S. N. SHUKLA~
J. Inorg.
Nucl.
MUCL.
CHEM.
LETTERS
Vol.
3,
pp.
603-607,
1967.
Pergamon Press
Ltd.
Printed
In
Great
Brlteln~
STUDIES ON COMPLEX COMPOUNDS-IV COPPER COMPLEXES OF QUINAZOLONE C. H. Misra, Department
Surendra
of Pharmacology
S. Parmar and R. C. Arora
and Therapeutics,
Lucknow University,
Lucknow
(Recelv~ 9 June |96~ In revised ~
Co-ordination tubercular properties Sorkin et al(2), reported
of the complexes
study four complexes
3, India
Contrary tO the findings of
and Kuhn and Zillekan(W) of thiosemicarbazones
of copper(II)
have
by
from secondary amines.
2-methyl-3-(4'-benzhydrazide)-4-quinazolones as antitubercular
College
14 S ~ t ~ b e r ;967)
of isoniazid(1).
chelation with sulphur and nitrogen present
K. G. Medical
with copper has been shown to enhance anti-
Ginzras et al(3),
synthesis
HYDRAZIDES 1
In the
halide with some have been synthesized
compounds. EXPERIMENTAL
Preparation 2-Methyl-3-(~'-benzhydrazide)-~-quinazolones sized as reported earlier(5). shaking ethanolic quinazolone
The complexes were pmepared by
solution of CuCI2.2H20
hydrazide
and an appropriate
in a I:i molar ratio(6).
separated out were collected by filtration and finally with ether. chemical
analysis
were synthe-
The color,
The complexes which
and washed with ethanol
solubility,
melting point and
data of these copper complexes
are shown in
Table I. iSupported by a research grant from the State Council of Scientific and Industrial Research, Lucknow. Correspondence regarding this publication should be addressed to Professor S. S. Parmar. 603
604
STUDIES OH COMPLEX COMPOUNDS-IV
P~C)
-'11" ~0
C) r-'l
Vol. 3, No.
~ 0
~" 0
C) 0"~
•
r-'l r-I
0~1
•
•
.H r-I
~u 0
o
o~
o
°~ g N
c~
r.-I
o')
¢E)
N °~ g N
g
r-I ¢'~
~
C.)
,-I
~-4 C.
¢~ 0
H
~
~a
E 0
0
0
_~,
?\ 0 bOO
• H 4-~ r-I.H • O
o,
X
_-l"
Z
0
-1"
0
Z oo
¢,o
o'~
0
~
t.D
¢D,
u3
o~ r~ f-I I ~
cr) co r-t I n~
o r~ r-I
0
0
4J
4J
r-I I --I"
~J .H r-I
0 GO
I
0 0 ~_)
X
I
(J
nn
H
H
H H
H H H
~> H
12
Vol, 3, Me. 12
STUDIES ON COMPLEX COMPOUNDS-IV
605
Infra-red spectr a The infra-red spectra of the complexes were obtained with KBr films using Perkin-Elmer Infracord Spectrophotometer.
The
energies and intense bands between 700-3500 cm -I for each of the complexes are given in Table II. 2-Methyl-3-(4'-benzhydrazide)-4quinazolone was used for comparison. TABLE II FREQUENCIES(cm -I) ASSIGNMENT FOR COPPER COMPLEXES
Compound
I
II
III
IV
NH 2 Stretching
NH 2 Deformation
3124 3028
1638
1614
3124 3028
1625
1601
3126 3028
1635
1611
1638
1611
1668
1627
3192 3028
V
CO Stretching
3283 3185
Compound numbers are as reported in Table I. Compound V denotes 2-methyl-3-(4'-benzhydrazide)-4-quinazolone(parent ligand). RESULTS AND DISCUSSION The elemental analysis of these complexes have indicated that the quinazolone hydrazides and cupric chloride react in the ratio of i:i. The infra-red spectra of the complexes show only two bands at 3124 cm -I and 3028 cm -I in the NH 2 stretching region. The -CONHNH 2 grouping in the parent ligand~ 2-methyl-3-(4'-benzhydra-
606
STUDIES ON COMPLEX COMPOUNDS-IV
zide)-4-quinazolone,
Vol. 3, No. 12
accounts for two bands at 3283 cm -I and
3185 cm -I. The resulting shift to the lower frequencies
indicates
possible involvement of NH group for co-ordination. At present it is difficult to establish the specific nitrogen participating in the complex formation.
Inability of 2-methyl-3-phenyl-4-quinazolone
(devoid of hydrazide moiety) and cupric chloride to form complex compound,
in our separate experiment,
favours participation of the
hydrazide moiety. Assuming that -CONHNH 2 group takes part in the complex formation,
the lowering of CO stretching has indicated the
involvement of CO group of the hydrazide moiety in such complex formation.
The CO group at position 4 of the quinazolone nucleus
is less active and is located at a distance from the nitrogen atoms of the hydrazide group.
Lowering of the NH deformation band provides
additional support for the involvement of NH 2 group for the binding of the oxygen to the metal ion. Since no extra peak was observed in the infra-red spectra of the quinazolone hydrazide(Compound V~ Table II) it is difficult to assess the availability of H atom of the secondary NH group for co-ordination. indicated the possible structure~
These results have
as shown in Table I~ for the
copper complexes of 2-methyl-3-(4'-benzhydrazide)-4-quinazolones. Similar structure has been suggested by Sorkin et al(2) for the copper complex of isoniazid. Acknowledgments The authors wish to express their appreciation to Professor K. P. Bhargava and Dr. J. P. Barthwal for their advice and encouragement and to Drs. M. L. Dhar and Nitya Anand of Central Drug Research Institute,
Lucknow for pmoviding facilities for micro-
analysis and infra-red measurements.
Vol. 3, No. 12
STUDIES ON COMPLEX COMPOUNDS-IV
607
REFERENCES i.
V. C. BARRY,
Chemotherapy
Butterworths, 2.
of Tuberculosis.
p. 131.
London(1964).
E. SORKIN~ W. ROTH, and H. ERLENMEYER,
Helv.
Chim. Acta.
35, 1736(1952). 3.
B. A. GINZRAS,
R. W. HORNAL~and
C. H. BAYLEY,
Can. J. Chem.
3.__88, 712(1960). 4.
R. KUHN and F. ZILLEKAN,
U.S. Patent No. 2,695,911(1954).
5.
S. S. PARMAR and R. C. AROEA,
6.
C. H. MISRA,
S. S. PARMAR~
Chem. 28, 147(1966).
Can. J. Chem. 4__~, 2100(1966).
and S. N. SHUKLA~
J. Inorg.
Nucl.