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U Weser

Showing results (81-90 of 152) with videos related to

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Inflammation|October 1, 1990
Antiinflammatory reactivity of copper(I)-thioneinR Miesel, H J Hartmann, U Weser
Bioinorganic Chemistry|January 1, 1975
Reaction of Cu++ with some polyamines of biochemical significance, a 13C-NMR studyW Voelter, G J Strobel, U Weser
Hoppe-Seyler'S Zeitschrift Fur Physiologische Chemie|November 1, 1984
Oxidation of Cu(I)-thionein by enzymically generated H2O2H J Hartmann, A Gärtner, U Weser
Immunology Letters|December 1, 1990
Monoclonal antibodies to monomeric rat liver metallothionein-I: the immunoreactivity of lysine residues in metallothioneinW Nagel, H J Hartmann, U Weser
Biochemical and Biophysical Research Communications|March 30, 1978
Pulse radiolytically generated superoxide and Cu(II)-salicylatesM Younes, E Lengfelder, S Zienau, et al.
Biochimica Et Biophysica Acta|April 12, 1979
Functional aspects of the superoxide dismutative action of Cu-penicillamineE Lengfelder, C Fuchs, M Younes, et al.
Biometals : an International Journal on the Role of Metal Ions in Biology, Biochemistry, and Medicine|January 1, 1992
Analogous copper(I) coordination in metallothionein from yeast and the separate domains of the mammalian proteinH J Hartmann, Y J Li, U Weser
FEBS Letters|September 15, 1972
X-Ray photoelectron spectroscopy (XPS) of bovine erythrocupreinG Jung, M Ottnad, W Bohnenkamp, et al.
Bioinorganic Chemistry|January 1, 1978
Reactivity of antiinflammatory and superoxide dismutase active Cu(II)-salicylatesU Weser, C Richter, A Wendel, et al.
European Journal of Biochemistry|October 1, 1975
The initial binding of Cu(II) to some amino acids and dipeptides: a 13C nuclear-magnetic-resonance studyW Voelter, G Sokolowski, U Weber, et al.
Pageof 16

Showing results (81-90 of 152) with videos related to

Sort By:
Pageof 16
Inflammation|October 1, 1990
Antiinflammatory reactivity of copper(I)-thioneinR Miesel, H J Hartmann, U Weser
Bioinorganic Chemistry|January 1, 1975
Reaction of Cu++ with some polyamines of biochemical significance, a 13C-NMR studyW Voelter, G J Strobel, U Weser
Hoppe-Seyler'S Zeitschrift Fur Physiologische Chemie|November 1, 1984
Oxidation of Cu(I)-thionein by enzymically generated H2O2H J Hartmann, A Gärtner, U Weser
Immunology Letters|December 1, 1990
Monoclonal antibodies to monomeric rat liver metallothionein-I: the immunoreactivity of lysine residues in metallothioneinW Nagel, H J Hartmann, U Weser
Biochemical and Biophysical Research Communications|March 30, 1978
Pulse radiolytically generated superoxide and Cu(II)-salicylatesM Younes, E Lengfelder, S Zienau, et al.
Biochimica Et Biophysica Acta|April 12, 1979
Functional aspects of the superoxide dismutative action of Cu-penicillamineE Lengfelder, C Fuchs, M Younes, et al.
Biometals : an International Journal on the Role of Metal Ions in Biology, Biochemistry, and Medicine|January 1, 1992
Analogous copper(I) coordination in metallothionein from yeast and the separate domains of the mammalian proteinH J Hartmann, Y J Li, U Weser
FEBS Letters|September 15, 1972
X-Ray photoelectron spectroscopy (XPS) of bovine erythrocupreinG Jung, M Ottnad, W Bohnenkamp, et al.
Bioinorganic Chemistry|January 1, 1978
Reactivity of antiinflammatory and superoxide dismutase active Cu(II)-salicylatesU Weser, C Richter, A Wendel, et al.
European Journal of Biochemistry|October 1, 1975
The initial binding of Cu(II) to some amino acids and dipeptides: a 13C nuclear-magnetic-resonance studyW Voelter, G Sokolowski, U Weber, et al.
Pageof 16