Metabolic Activation of N-Hydroxyarylamines and N-Hydroxyarylamides by 16 Recombinant Human NAT2 Allozymes: Effects of 7 Specific NAT2 Nucleic Acid Substitutions

David W. Hein; Mark A. Doll; Timothy D. Rustan; Ronald J. Ferguson

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Metabolic Activation of N-Hydroxyarylamines and N-Hydroxyarylamides by 16 Recombinant Human NAT2 Allozymes: Effects of 7 Specific NAT2 Nucleic Acid Substitutions

David W. Hein, Mark A. Doll, Timothy D. Rustan and Ronald J. Ferguson

David W. Hein

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Mark A. Doll

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Timothy D. Rustan

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Ronald J. Ferguson

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DOI: Published August 1995

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Volume 55, Issue 16, pp. 3531-3536

PubMed

7627960

Published By

American Association for Cancer Research

Print ISSN

0008-5472

Online ISSN

1538-7445

History

Received February 24, 1995
Accepted June 9, 1995
Published first August 1, 1995.

Author Information

David W. Hein²,
Mark A. Doll,
Timothy D. Rustan, and
Ronald J. Ferguson³

Department of Pharmacology and Toxicology, University of North Dakota School of Medicine, Grand Forks, North Dakota 58202-9037

↵³ Present Address: National Institute for Environmental Health Sciences, P.O. Box 12233, Research Triangle Park, NC 27709.

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August 1995
Volume 55, Issue 16

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Metabolic Activation of N-Hydroxyarylamines and N-Hydroxyarylamides by 16 Recombinant Human NAT2 Allozymes: Effects of 7 Specific NAT2 Nucleic Acid Substitutions

David W. Hein, Mark A. Doll, Timothy D. Rustan and Ronald J. Ferguson

Cancer Res August 15 1995 (55) (16) 3531-3536;

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Metabolic Activation of N-Hydroxyarylamines and N-Hydroxyarylamides by 16 Recombinant Human NAT2 Allozymes: Effects of 7 Specific NAT2 Nucleic Acid Substitutions

David W. Hein, Mark A. Doll, Timothy D. Rustan and Ronald J. Ferguson

Cancer Res August 15 1995 (55) (16) 3531-3536;

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Cancer Research Online ISSN: 1538-7445
Cancer Research Print ISSN: 0008-5472
Journal of Cancer Research ISSN: 0099-7013
American Journal of Cancer ISSN: 0099-7374

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Metabolic Activation of N-Hydroxyarylamines and N-Hydroxyarylamides by 16 Recombinant Human NAT2 Allozymes: Effects of 7 Specific NAT2 Nucleic Acid Substitutions

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