Chemistry Reference
In-Depth Information
95. Sugiura, Y. (1980) Monomeric cobalt(II)-oxygen adducts of bleomycin antibiotics in aqueous
solution - a new ligand type for oxygen binding and effect of axial Lewis base.
J. Am. Chem.
Soc.
,
102
, 5216-5221.
96. Greenaway, F.T., Dabrowiak, J.C., Van Husen, M.
et al.
(1978) The transition metal binding
properties of a 3rd generation bleomycin analogue, tallysomycin.
Biochem. Biophys. Res.
Commun.
,
85
, 1407-1414.
97. (a) Sugiura, Y. (1978) Metal coordination core of bleomycin: comparison of metal complexes
between bleomycin and its biosynthetic intermediate.
Biochem. Biophys. Res. Commun.
,
87
,
643-648; (b) Guan, L.L., Totsuka, R., Kuwahara, J.
et al.
(1993) Cleavage of yeast transfer
RNA
phe
with Ni(III) and Co(III) complexes of bleomycin.
Biochem. Biophys. Res. Commun.
,
191
, 1338-1346; (c) Sugiura, Y. and Mino, Y. (1979) Nickel(III) complexes of histidine-con-
taining tripeptide and bleomycin—Electron-spin resonance characteristics and effect of axial
nitrogen donors.
Inorg. Chem.
,
18
, 1336-1339; (d) Guan, L.L., Kuwahara, J., Sugiura, Y.
et al.
(1993) Guanine-specific binding by bleomycin nickel(III) complex and its reactivity for
guanine-quartet telomeric DNA.
Biochemistry
,
32
, 6141-6145.
98. (a) Dabrowiak, J.C., Greenaway, F.T., and Grulich, R. (1978) Transition-metal binding site of
bleomycin A
2
. A carbon-13 nuclear magnetic resonance study of the zinc(II) and copper(II)
derivatives.
Biochemistry
,
17
, 4090-4096; (b) Dabrowiak, J.C., Greenaway, F.T., Longo, W.E.
et al.
(1978) A spectroscopic investigation of the metal binding site of bleomycin A
2
. The Cu
(II) and Zn(II) derivatives.
Biochim. Biophys. Acta
,
517
, 517-526; (c) Sugiura, Y. (1979) The
production of hydroxyl radical from copper(I) complex systems of bleomycin and tallysomy-
cin: comparison with copper(II) and iron(II) systems.
Biochem Biophys. Res. Commun.
,
90
,
375-383.
99. Ehrenfeld, G.M., Shipley, J.B., Heimbrook, D.C.
et al.
(1987) Copper-dependent cleavage of
DNA by bleomycin.
Biochemistry
,
26
, 931-942.
100. Otvos, J.D., Antholine, W.E., Wehrl, S., and Petering, D.H. (1996) Metal coordination envi-
ronment and dynamics in cadmium-113 bleomycin: Relationship to zinc bleomycin.
Bio-
chemistry
,
35
, 1458-1465.
101. Papakyriakou, A., Mouzopoulou, B., and Katsaros, N. (2001) The detailed structural charac-
terization of the Ga(III)-bleomycin A2 complex by NMR and molecular modeling.
J. Inorg.
Biochem.
,
86
, 371 (ICBIC10 abstract).
102. Subramanian, R. and Meares, C.F. (1985) Photo-induced nicking of deoxyribonucleic acid by
ruthenium(II)-bleomycin in the presence of air.
Biochem. Biophys. Res. Commun.
,
133
,
1145-1151.
103. Brooks, R.C., Carnochan, P., Vollano, J.F.
et al.
(1999) Metal complexes of bleomycin: Evalu-
ation of [Rh-105]-bleomycin for use in targeted radiotherapy.
Nuclear Med. Biol.
,
26
,
421-430.
104. Itaka, Y., Nakamura, H., Nakatani, T.
et al.
(1978) Chemistry of bleomycin, The X-ray struc-
ture determination of P-3A Cu(II)-complex a biosynthetic intermediate of bleomycin.
J. Anti-
biot.
,
31
, 1070-1072.
105. Burger, R.M., Adler, A.D., Horwitz, S.B.
et al.
(1981) Demonstration of nitrogen coordination
in metal-bleomycin complexes by electron spin-echo envelope spectroscopy.
Biochemistry
,
20
, 1701-1704.
106. (a) Loeb, K.E., Zaleski, J.M., Westre, T.E.
et al.
(1995) Spectroscopic dedinition of the geo-
metric and electronic structure of the nonheme active site in iron(II) bleomycin-correlation
with oxygen reactivity.
J. Am. Chem. Soc.
,
117
, 4545-4561; (b) Loeb, K.E., Zaleski, J.M.,
Hess, C.D.
et al.
(1998) Spectroscopic investigation of the metal ligation and reactivity of the
ferrous active sites of bleomycin and bleomycin derivatives.
J. Am. Soc.
,
120
, 1249-1259.
107. (a) Oppenheimer, N.J., Chang, C., Chang, L.H.
et al.
(1982) Deglyco-bleomycin. Degradation
of DNA and formation of a structurally unique Fe(II)CO complex.
J. Biol. Chem.
,
257
,
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