Meri Oliva

Publications

• Supplementary Table 12 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 11 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 10 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 10 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 9 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 6 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 13 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 8 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 8 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 7 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 7 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 6 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 1 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 13 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 5 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 4 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 3 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 2 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 10 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Data from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 4 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 3 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 3 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 2 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 2 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 19 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 19 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 17 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 16 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 14 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 18 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 18 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 17 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 15 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 12 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 14 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 15 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 11 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 1 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 1 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 9 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 1 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 5 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 4 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 3 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 2 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Figure 10 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 16 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 4 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Data from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 5 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 7 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 6 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 7 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Sequencing-based fine-mapping and in silico functional characterization of the 10q24.32 arsenic metabolism efficiency locus across multiple arsenic-exposed populations
• Integrative cross-omics and cross-context analysis elucidates molecular links underlying genetic effects on complex traits
• DNA methylation QTL mapping across diverse human tissues provides molecular links between genetic variation and complex traits
• The impact of sex on gene expression across human tissues
• Cell type–specific genetic regulation of gene expression across human tissues
• Genetic regulation of DNA methylation across tissues reveals thousands of molecular links to complex traits
• 5-Hydroxymethylcytosine Profiles in Circulating Cell-Free DNA Associate with Disease Burden in Children with Neuroblastoma
• Systematic evaluation of transcriptomics-based deconvolution methods and references using thousands of clinical samples
• The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Integrative cross-omics and cross-context analysis elucidates molecular links underlying genetic effects on complex traits
• Supplementary Table 9 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 8 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 6 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 5 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 9 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Supplementary Table 8 from The Impact of Inherited Genetic Variation on DNA Methylation in Prostate Cancer and Benign Tissues of African American and European American Men
• Multi-Ancestry Genome-Wide Association Meta-Analysis Identifies Novel Loci in Atopic Dermatitis
• Integration of GWAS and multi-omic QTLs identifies uncharacterized COVID-19 gene-biotype and phenotype associations
• Differential DNA methylation in the benign and cancerous prostate tissue of African American and European American men
• Supplementary Figure S9 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Figure S6 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Figure S8 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Data from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S7 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S5 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S9 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Figure S3 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S2 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Figure S5 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S8 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S4 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S6 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S3 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Figure S7 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Figure S1 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Figure S4 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S1 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S11 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S10 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Table S12 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Supplementary Figure S2 from Differential DNA Methylation in the Benign and Cancerous Prostate Tissue of African American and European American Men
• Integration of GWAS, QTLs and keratinocyte functional assays reveals molecular mechanisms of atopic dermatitis