APA
Breysse D. H., Boone R. M., Long C. M., Merrill M. E., Schaupp C. M., White C. C., Kavanagh T. J., Schmidt E. E. & Merrill G. F. (20210602). Carbonyl Reductase 1 Plays a Significant Role in Converting Doxorubicin to Cardiotoxic Doxorubicinol in Mouse Liver, but the Majority of the Doxorubicinol-Forming Activity Remains Unidentified. : Drug metabolism and disposition: the biological fate of chemicals.
Chicago
Breysse Daniel H, Boone Ryan M, Long Cameron M, Merrill Miranda E, Schaupp Christopher M, White Collin C, Kavanagh Terrance J, Schmidt Edward E and Merrill Gary F. 20210602. Carbonyl Reductase 1 Plays a Significant Role in Converting Doxorubicin to Cardiotoxic Doxorubicinol in Mouse Liver, but the Majority of the Doxorubicinol-Forming Activity Remains Unidentified. : Drug metabolism and disposition: the biological fate of chemicals.
Harvard
Breysse D. H., Boone R. M., Long C. M., Merrill M. E., Schaupp C. M., White C. C., Kavanagh T. J., Schmidt E. E. and Merrill G. F. (20210602). Carbonyl Reductase 1 Plays a Significant Role in Converting Doxorubicin to Cardiotoxic Doxorubicinol in Mouse Liver, but the Majority of the Doxorubicinol-Forming Activity Remains Unidentified. : Drug metabolism and disposition: the biological fate of chemicals.
MLA
Breysse Daniel H, Boone Ryan M, Long Cameron M, Merrill Miranda E, Schaupp Christopher M, White Collin C, Kavanagh Terrance J, Schmidt Edward E and Merrill Gary F. Carbonyl Reductase 1 Plays a Significant Role in Converting Doxorubicin to Cardiotoxic Doxorubicinol in Mouse Liver, but the Majority of the Doxorubicinol-Forming Activity Remains Unidentified. : Drug metabolism and disposition: the biological fate of chemicals. 20210602.