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L G Lund

Showing results (1-10 of 11) with videos related to

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Free Radical Biology & Medicine|July 1, 1994
Cellular reducing equivalents and oxidative stressJ P Kehrer, L G Lund
Archives of Biochemistry and Biophysics|May 15, 1991
Mobilization of iron from crocidolite asbestos by certain chelators results in enhanced crocidolite-dependent oxygen consumptionL G Lund, A E Aust
Carcinogenesis|April 1, 1992
Iron mobilization from crocidolite asbestos greatly enhances crocidolite-dependent formation of DNA single-strand breaks in phi X174 RFI DNAL G Lund, A E Aust
Archives of Biochemistry and Biophysics|April 1, 1990
Iron mobilization from asbestos by chelators and ascorbic acidL G Lund, A E Aust
Biofactors (Oxford, England)|June 1, 1991
Iron-catalyzed reactions may be responsible for the biochemical and biological effects of asbestosL G Lund, A E Aust
Proceedings of the Western Pharmacology Society|January 1, 1993
Effects of oxygen deprivation on cardiac redox systemsJ P Kehrer, T Paraidathathu, L G Lund
Toxicology|November 11, 1994
Reduction of glutathione disulfide and the maintenance of reducing equivalents in hypoxic hearts after the infusion of diamideL G Lund, T Paraidathathu, J P Kehrer
Archives of Biochemistry and Biophysics|November 1, 1994
Iron mobilization from crocidolite asbestos by human lung carcinoma cellsC C Chao, L G Lund, K R Zinn, et al.
Occupational and Environmental Medicine|March 1, 1994
Iron associated with asbestos bodies is responsible for the formation of single strand breaks in phi X174 RFI DNAL G Lund, M G Williams, R F Dodson, et al.
Inhalation Toxicology|September 15, 2015
Role of Iron in the Cellular Effects of AsbestosE A Aust, L G Lund, C C Chao, et al.
Pageof 2

Showing results (1-10 of 11) with videos related to

Sort By:
Pageof 2
Free Radical Biology & Medicine|July 1, 1994
Cellular reducing equivalents and oxidative stressJ P Kehrer, L G Lund
Archives of Biochemistry and Biophysics|May 15, 1991
Mobilization of iron from crocidolite asbestos by certain chelators results in enhanced crocidolite-dependent oxygen consumptionL G Lund, A E Aust
Carcinogenesis|April 1, 1992
Iron mobilization from crocidolite asbestos greatly enhances crocidolite-dependent formation of DNA single-strand breaks in phi X174 RFI DNAL G Lund, A E Aust
Archives of Biochemistry and Biophysics|April 1, 1990
Iron mobilization from asbestos by chelators and ascorbic acidL G Lund, A E Aust
Biofactors (Oxford, England)|June 1, 1991
Iron-catalyzed reactions may be responsible for the biochemical and biological effects of asbestosL G Lund, A E Aust
Proceedings of the Western Pharmacology Society|January 1, 1993
Effects of oxygen deprivation on cardiac redox systemsJ P Kehrer, T Paraidathathu, L G Lund
Toxicology|November 11, 1994
Reduction of glutathione disulfide and the maintenance of reducing equivalents in hypoxic hearts after the infusion of diamideL G Lund, T Paraidathathu, J P Kehrer
Archives of Biochemistry and Biophysics|November 1, 1994
Iron mobilization from crocidolite asbestos by human lung carcinoma cellsC C Chao, L G Lund, K R Zinn, et al.
Occupational and Environmental Medicine|March 1, 1994
Iron associated with asbestos bodies is responsible for the formation of single strand breaks in phi X174 RFI DNAL G Lund, M G Williams, R F Dodson, et al.
Inhalation Toxicology|September 15, 2015
Role of Iron in the Cellular Effects of AsbestosE A Aust, L G Lund, C C Chao, et al.
Pageof 2