Connolly D. Carroll
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Author Swipe
View article: Table S1 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S1 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with increasing reproductive age
View article: Table S3 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S3 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with family history of disease
View article: Figure S10 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S10 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Correlation between subject reproductive age (years) and estimated relative proportions of cells in breast milk (n = 48). Component cell types include epithelial cells, endothelial cells, fibroblasts, adipocytes, B cells, CD4+ T cells, CD8…
View article: Figure S4 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S4 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Correlation between subject BMI (kg/m2) and estimated relative proportions of cells in solid breast tissue (n = 95). Component cell types include epithelial cells, endothelial cells, fibroblasts, adipocytes, B cells, CD4+ T cells, CD8+ T c…
View article: Table S8 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S8 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with parity
View article: Figure S12 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S12 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Epigenome-wide association analysis identifying CpG sites that are significantly differentially methylated with increasing reproductive age in (A) solid breast tissue and (B) breast milk, adjusted for estimated proportions of epithelial ce…
View article: Figure S13 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S13 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Epigenome-wide association analysis identifying CpG sites that are significantly differentially methylated in women with a family history of breast cancer relative to women without a family history of breast cancer in (A) solid breast tiss…
View article: Table S4 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S4 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypomethylated loci (P < 0.01) in solid breast tissue and breast milk with family history of disease
View article: Table S4 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S4 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypomethylated loci (P < 0.01) in solid breast tissue and breast milk with family history of disease
View article: Figure S14 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S14 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Epigenome-wide association analysis identifying CpG sites that are significantly differentially methylated with increasing (A) BMI in solid breast tissue and (B) pre-pregnancy BMI in breast milk, adjusted for estimated proportions of epith…
View article: Table S10 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S10 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with increasing age
View article: Table S6 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S6 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with increasing BMI
View article: Figure S14 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S14 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Epigenome-wide association analysis identifying CpG sites that are significantly differentially methylated with increasing (A) BMI in solid breast tissue and (B) pre-pregnancy BMI in breast milk, adjusted for estimated proportions of epith…
View article: Figure S2 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S2 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Estimated relative proportions of component cell types in the breast-specific reference library among an independent data set of isolated adipocytes from abdominal subcutaneous fat samples (n = 30, GSE58622).
View article: Table S7 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S7 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypomethylated loci (P < 0.01) in solid breast tissue and breast milk with increasing BMI
View article: Figure S5 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S5 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Correlation between subject reproductive age (years) and estimated relative proportions of cells in solid breast tissue (n = 95). Component cell types include epithelial cells, endothelial cells, fibroblasts, adipocytes, B cells, CD4+ T ce…
View article: Table S13 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S13 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Age and parity associated alterations to DNA methylation in breast milk adjusted only for cellular composition and adjusted for cellular composition and both age and parity, respectively
View article: Table S3 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S3 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with family history of disease
View article: Figure S12 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S12 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Epigenome-wide association analysis identifying CpG sites that are significantly differentially methylated with increasing reproductive age in (A) solid breast tissue and (B) breast milk, adjusted for estimated proportions of epithelial ce…
View article: Figure S5 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S5 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Correlation between subject reproductive age (years) and estimated relative proportions of cells in solid breast tissue (n = 95). Component cell types include epithelial cells, endothelial cells, fibroblasts, adipocytes, B cells, CD4+ T ce…
View article: Table S12 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S12 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Age and parity associated alterations to DNA methylation in solid breast tissue adjusted only for cellular composition and adjusted for cellular composition and both age and parity, respectively
View article: Table S2 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S2 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypomethylated loci (P < 0.01) in solid breast tissue and breast milk with increasing reproductive age
View article: Figure S1 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S1 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Correlation between estimated relative proportions of immune cells and true relative proportions in the in silico mixtures (n=12). Component cell types include B cells, CD4+ T cells, CD8+ T cells, monocytes, neutrophils, and NK cells.
View article: Figure S13 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S13 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Epigenome-wide association analysis identifying CpG sites that are significantly differentially methylated in women with a family history of breast cancer relative to women without a family history of breast cancer in (A) solid breast tiss…
View article: Table S1 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S1 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with increasing reproductive age
View article: Table S14 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S14 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Age association with DNA methylation of the 10 overlapping hypermethylated probes in solid breast tissue and breast milk that map to the TSS1500 region of SFRP2.
View article: Table S8 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S8 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with parity
View article: Table S6 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S6 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypermethylated loci (P < 0.01) in solid breast tissue and breast milk with increasing BMI
View article: Table S7 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Table S7 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Shared hypomethylated loci (P < 0.01) in solid breast tissue and breast milk with increasing BMI
View article: Figure S7 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors
Figure S7 from Application of Novel Breast Biospecimen Cell-Type Adjustment Identifies Shared DNA Methylation Alterations in Breast Tissue and Milk with Breast Cancer–Risk Factors Open
Distribution of the estimated relative proportion of each component cell type in (A) solid breast tissue (n = 95) and (B) breast milk (n = 48) by subject family history of breast cancer. Component cell types include epithelial cells, endot…