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Table 1 From Measurement Of Benzoapyrene Dna Adducts By Enzyme

Table 1 From Measurement Of Benzoapyrene Dna Adducts By Enzyme

Table 1 From Measurement Of Benzoapyrene Dna Adducts By Enzyme

Table 1 From Measurement Of Benzoapyrene Dna Adducts By Enzyme
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Table 1 From Metabolism Of Benzoapyrene And Identification Of The

Table 1 From Metabolism Of Benzoapyrene And Identification Of The

Table 1 From Metabolism Of Benzoapyrene And Identification Of The
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Table 1 From Detection Of Benzo A Pyrene Dna Adducts In Human Placenta

Table 1 From Detection Of Benzo A Pyrene Dna Adducts In Human Placenta

Table 1 From Detection Of Benzo A Pyrene Dna Adducts In Human Placenta
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Table 1 From Detection Of Benzo A Pyrene Dna Adducts In Human Placenta

Table 1 From Detection Of Benzo A Pyrene Dna Adducts In Human Placenta

Table 1 From Detection Of Benzo A Pyrene Dna Adducts In Human Placenta
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Table 1 From Metabolism Of Benzoapyrene N Nitrosodimethylamine And

Table 1 From Metabolism Of Benzoapyrene N Nitrosodimethylamine And

Table 1 From Metabolism Of Benzoapyrene N Nitrosodimethylamine And
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Table 1 From The Relationship Between Dna Adduct Formation By Benzo A

Table 1 From The Relationship Between Dna Adduct Formation By Benzo A

Table 1 From The Relationship Between Dna Adduct Formation By Benzo A
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Table 1 From Genetic Polymorphisms In Biotransformation Enzymes For

Table 1 From Genetic Polymorphisms In Biotransformation Enzymes For

Table 1 From Genetic Polymorphisms In Biotransformation Enzymes For
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Table 1 From Similarities In The Formation And Removal Of Covalent Dna

Table 1 From Similarities In The Formation And Removal Of Covalent Dna

Table 1 From Similarities In The Formation And Removal Of Covalent Dna
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Table 1 From Benzo A Pyrene Diolepoxide Dna Adducts Detected By

Table 1 From Benzo A Pyrene Diolepoxide Dna Adducts Detected By

Table 1 From Benzo A Pyrene Diolepoxide Dna Adducts Detected By
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Table 1 From Species Differences In The Formation Of Benzoapyrene Dna

Table 1 From Species Differences In The Formation Of Benzoapyrene Dna

Table 1 From Species Differences In The Formation Of Benzoapyrene Dna
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Table 1 From Lack Of Contribution Of Covalent Benzo A Pyrene 78

Table 1 From Lack Of Contribution Of Covalent Benzo A Pyrene 78

Table 1 From Lack Of Contribution Of Covalent Benzo A Pyrene 78
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Table 1 From Dna Polymerase Eta Participates In The Mutagenic Bypass Of

Table 1 From Dna Polymerase Eta Participates In The Mutagenic Bypass Of

Table 1 From Dna Polymerase Eta Participates In The Mutagenic Bypass Of
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Table 1 From Translesion Replication Of Benzo A Pyrene And Benzo C

Table 1 From Translesion Replication Of Benzo A Pyrene And Benzo C

Table 1 From Translesion Replication Of Benzo A Pyrene And Benzo C
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Table 1 From Species And Length Of Exposure Dependent Differences In

Table 1 From Species And Length Of Exposure Dependent Differences In

Table 1 From Species And Length Of Exposure Dependent Differences In
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Pdf Detection Of Benzoapyrenedna Adducts In Human White Blood

Pdf Detection Of Benzoapyrenedna Adducts In Human White Blood

Pdf Detection Of Benzoapyrenedna Adducts In Human White Blood
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Table 1 From Biological Monitoring Exposure Of Workers From Plant

Table 1 From Biological Monitoring Exposure Of Workers From Plant

Table 1 From Biological Monitoring Exposure Of Workers From Plant
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Table 1 From Mutagenic Replication In A Human Cell Extract Of Dnas

Table 1 From Mutagenic Replication In A Human Cell Extract Of Dnas

Table 1 From Mutagenic Replication In A Human Cell Extract Of Dnas
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Table 2 From Measurement Of Benzoapyrene Dna Adducts By Enzyme

Table 2 From Measurement Of Benzoapyrene Dna Adducts By Enzyme

Table 2 From Measurement Of Benzoapyrene Dna Adducts By Enzyme
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Table 1 From Photo Induced Reactions Of Benzoapyrene With Dna In

Table 1 From Photo Induced Reactions Of Benzoapyrene With Dna In

Table 1 From Photo Induced Reactions Of Benzoapyrene With Dna In
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Table 1 From Oxidative Damage To Nucleic Acids And Benzoapyrene 78

Table 1 From Oxidative Damage To Nucleic Acids And Benzoapyrene 78

Table 1 From Oxidative Damage To Nucleic Acids And Benzoapyrene 78
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Metabilic Activation And The Major Dna Adducts Formed By Benzo A Pyrene

Metabilic Activation And The Major Dna Adducts Formed By Benzo A Pyrene

Metabilic Activation And The Major Dna Adducts Formed By Benzo A Pyrene
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Table 1 From Nad P H Quinone Oxidoreductase 1 Dt Diaphorase

Table 1 From Nad P H Quinone Oxidoreductase 1 Dt Diaphorase

Table 1 From Nad P H Quinone Oxidoreductase 1 Dt Diaphorase
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Table 1 From Punicalagin And Ellagic Acid Demonstrate Antimutagenic

Table 1 From Punicalagin And Ellagic Acid Demonstrate Antimutagenic

Table 1 From Punicalagin And Ellagic Acid Demonstrate Antimutagenic
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Table 1 From Chemopreventive Mechanisms Of Methionine On Inhibition Of

Table 1 From Chemopreventive Mechanisms Of Methionine On Inhibition Of

Table 1 From Chemopreventive Mechanisms Of Methionine On Inhibition Of
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Table 1 From Dna Damage From Polycyclic Aromatic Hydrocarbons Measured

Table 1 From Dna Damage From Polycyclic Aromatic Hydrocarbons Measured

Table 1 From Dna Damage From Polycyclic Aromatic Hydrocarbons Measured
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Table 3 From Measurement Of Benzoapyrene Dna Adducts By Enzyme

Table 3 From Measurement Of Benzoapyrene Dna Adducts By Enzyme

Table 3 From Measurement Of Benzoapyrene Dna Adducts By Enzyme
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Table 1 From Antioxidant Vitamin Supplementation Reduces Benzoapyrene

Table 1 From Antioxidant Vitamin Supplementation Reduces Benzoapyrene

Table 1 From Antioxidant Vitamin Supplementation Reduces Benzoapyrene
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Table 1 From Inactivation Of Plasmid Reporter Gene Expression By One

Table 1 From Inactivation Of Plasmid Reporter Gene Expression By One

Table 1 From Inactivation Of Plasmid Reporter Gene Expression By One
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Table 2 From Translesion Replication Of Benzo A Pyrene And Benzo C

Table 2 From Translesion Replication Of Benzo A Pyrene And Benzo C

Table 2 From Translesion Replication Of Benzo A Pyrene And Benzo C
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Table 2 From Formation Of Benzoapyrenedna Adducts And Their

Table 2 From Formation Of Benzoapyrenedna Adducts And Their

Table 2 From Formation Of Benzoapyrenedna Adducts And Their
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Table 1 From The Benzo0pyrene Deoxyribonucleoside Products Isolated

Table 1 From The Benzo0pyrene Deoxyribonucleoside Products Isolated

Table 1 From The Benzo0pyrene Deoxyribonucleoside Products Isolated
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Table 1 From Binding Of 3h Labeled Benzoapyrene To Dna In Hamster

Table 1 From Binding Of 3h Labeled Benzoapyrene To Dna In Hamster

Table 1 From Binding Of 3h Labeled Benzoapyrene To Dna In Hamster
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Table 1 From Specific Positions Involved In Enzyme Catalyzed Covalent

Table 1 From Specific Positions Involved In Enzyme Catalyzed Covalent

Table 1 From Specific Positions Involved In Enzyme Catalyzed Covalent
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Table 1 From Dna Adducts As A Measure Of Lung Cancer Risk In Humans

Table 1 From Dna Adducts As A Measure Of Lung Cancer Risk In Humans

Table 1 From Dna Adducts As A Measure Of Lung Cancer Risk In Humans
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Table 1 From Evaluation Of Benzo A Pyrene Dna Adducts As A Biomarker

Table 1 From Evaluation Of Benzo A Pyrene Dna Adducts As A Biomarker

Table 1 From Evaluation Of Benzo A Pyrene Dna Adducts As A Biomarker
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