OMICS field | Exposure | Topic | References |
Genotyping | Benzene | Interaction between SNPs and benzene-induced toxicity | 71–73 77–80 |
Genotyping | Arsenic | Interaction between SNPs and arsenic-induced skin lesions | 81 82 |
Genotyping | Arsenic | Interaction between SNPs and arsenic metabolism | 83 84 |
Genotyping | Arsenic | Interaction between SNPs and exposure to arsenic in relation to non-melanoma skin cancer | 85 |
CNV | Arsenic | Interaction between DNA CNV and exposure to arsenic in relation to transitional cell carcinoma | 86 |
CNV | Arsenic | Interaction between DNA CNV and exposure to arsenic in relation to bladder tumours | 87 |
Epigenomics | Benzene | Relation between gene-specific hypermethylation and exposure to benzene | 88 |
Epigenomics | Arsenic | Relation between epigenetic silencing of tumour suppressor genes and exposure to both tobacco and arsenic | 89 |
Epigenomics | Arsenic | Relation between genomic methylation and exposure to arsenic | 90 91 |
Transcriptomics | Benzene | Relation between gene expression and exposure to benzene | 92 |
Transcriptomics | Arsenic | Interaction between exposure to arsenic and arsenical skin lesions in relation to genome-wide gene expression | 74 |
Transcriptomics | Arsenic | Relation between gene expression and exposure to arsenic | 93 94 |
Proteomics | Benzene | Impact of exposure to benzene on the composition of the proteome | 95 96 |
Proteomics | Arsenic | Impact of exposure to arsenic on the composition of the proteome | 97 98 |
CNV, copy number variation; SNP, single nucleotide polymorphism.