Alison Johnson
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View article: Supplemental Table 4 from Nitrated Polycyclic Aromatic Hydrocarbon (Nitro-PAH) Signatures and Somatic Mutations in Diesel Exhaust-Exposed Bladder Tumors
Supplemental Table 4 from Nitrated Polycyclic Aromatic Hydrocarbon (Nitro-PAH) Signatures and Somatic Mutations in Diesel Exhaust-Exposed Bladder Tumors Open
specific TP53 mutations and ever diesel
View article: Supplemental Table 6 from Nitrated Polycyclic Aromatic Hydrocarbon (Nitro-PAH) Signatures and Somatic Mutations in Diesel Exhaust-Exposed Bladder Tumors
Supplemental Table 6 from Nitrated Polycyclic Aromatic Hydrocarbon (Nitro-PAH) Signatures and Somatic Mutations in Diesel Exhaust-Exposed Bladder Tumors Open
Ever diesel and nitro-PAH signatures adjusted for smoking
View article: Supplemental Table 2 from Nitrated Polycyclic Aromatic Hydrocarbon (Nitro-PAH) Signatures and Somatic Mutations in Diesel Exhaust-Exposed Bladder Tumors
Supplemental Table 2 from Nitrated Polycyclic Aromatic Hydrocarbon (Nitro-PAH) Signatures and Somatic Mutations in Diesel Exhaust-Exposed Bladder Tumors Open
study characteristics
View article: Supplementary Table S3 from Urine pH and Risk of Bladder Cancer in Northern New England
Supplementary Table S3 from Urine pH and Risk of Bladder Cancer in Northern New England Open
Supplementary Table S3 shows spot urine pH categorized into ≤6.0 and >6.0 and bladder cancer risk, stratified by smoking status.
View article: Supplemental Table 1 from Nitrated Polycyclic Aromatic Hydrocarbon (Nitro-PAH) Signatures and Somatic Mutations in Diesel Exhaust-Exposed Bladder Tumors
Supplemental Table 1 from Nitrated Polycyclic Aromatic Hydrocarbon (Nitro-PAH) Signatures and Somatic Mutations in Diesel Exhaust-Exposed Bladder Tumors Open
Genes on panel
View article: Supplementary Table S1 from Urine pH and Risk of Bladder Cancer in Northern New England
Supplementary Table S1 from Urine pH and Risk of Bladder Cancer in Northern New England Open
Supplementary Table S1 shows urine pH and risk of bladder cancer among ever-smokers.
View article: Supplementary Table S2 from Urine pH and Risk of Bladder Cancer in Northern New England
Supplementary Table S2 from Urine pH and Risk of Bladder Cancer in Northern New England Open
Supplementary Table S2 shows urine pH and bladder cancer risk stratified by never-, former-, and current-smokers.
View article: Table S1 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection
Table S1 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection Open
Table S1: Patient summary of demographic characteristics and mutation status in individual sets and the combined BC set
View article: Table S7 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection
Table S7 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection Open
Table S7: Relationship of PyV status with FGFR3/PIK3CA-mutation status and cigarette smoking
View article: Table S3 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection
Table S3 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection Open
Table S3: Positivity of virus transcript detection in bladder tumors from UROMOL
View article: Table S6 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection
Table S6 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection Open
Table S6: Frequencies of APOBEC-type FGFR3 and PIK3CA mutations in relation to tumor viral status
View article: Table S4 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection
Table S4 from Analysis of Several Common APOBEC-type Mutations in Bladder Tumors Suggests Links to Viral Infection Open
Table S4: Top recurrent mutations in FGFR3 and PIK3CA within NMIBC (1,573 patients) and MIBC (1,243 patients)
View article: Lifetime water arsenic, genetic susceptibility, and bladder cancer in the New England Bladder Cancer Study
Lifetime water arsenic, genetic susceptibility, and bladder cancer in the New England Bladder Cancer Study Open
Background Exposure to arsenic in drinking water may interact with common genetic variants in urinary bladder cancer risk. Methods We conducted a gene-environment interaction analysis among 1091 bladder cancer cases and 928 controls from t…
View article: Supplemental Table 1 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer
Supplemental Table 1 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer Open
Supplemental Table 1 displays the odds ratios for the association between solvents and bladder cancer in the subset with genetic information.
View article: Supplemental Table 5 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer
Supplemental Table 5 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer Open
Supplemental Table 5 shows the interaction between genetic variants and smoking status, common referent.
View article: Supplemental Table 4 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer
Supplemental Table 4 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer Open
Supplemental Table 4 shows the interaction between rs72826305 (CASC15/LOC105374970), rs2896518 (FGFR3), GSTT1, and rs2070676 (CYP2E1) and ever or cumulative solvent exposure and risk of bladder cancer, stratified.
View article: Supplemental Table 2 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer
Supplemental Table 2 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer Open
Supplemental Table 2 shows the interaction between GWAS markers and ever or cumulative toluene and xylene exposure and risk of bladder cancer, common referent.
View article: Supplemental Table 6 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer
Supplemental Table 6 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer Open
Supplemental Table 6 displays the associations between ever solvent exposure and risk of bladder cancer, stratified by the 24-marker bladder cancer polygenic risk score (PRS).
View article: Data from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer
Data from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer Open
The New England Bladder Cancer Study has recently reported an increased bladder cancer risk with occupational exposure to mononuclear aromatic organic solvents, including exposure to benzene, toluene, and xylene and their combination BTX. …
View article: Supplemental Table 3 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer
Supplemental Table 3 from Solvent Exposure, Genetic Susceptibility, and Risk of Bladder Cancer Open
Supplemental Table 3 displays the interaction between candidate markers and ever or cumulative toluene and xylene exposure and risk of bladder cancer, common referent.
View article: Proceedings of the 15 <sup>th</sup> European immunogenicity platform open symposium on immunogenicity of biopharmaceuticals
Proceedings of the 15 <sup>th</sup> European immunogenicity platform open symposium on immunogenicity of biopharmaceuticals Open
The European Immunogenicity Platform (EIP) celebrated the 15th edition of its Open Symposium on Immunogenicity of Biopharmaceuticals and its associated one-day workshop on 22-24 February 2024 in Lisbon. The meeting attracted experts and ne…
View article: Recent increases in sea turtle incubation durations on a North Carolina, <scp>USA</scp>, beach despite a warming climate
Recent increases in sea turtle incubation durations on a North Carolina, <span>USA</span>, beach despite a warming climate Open
Warming temperatures due to climate change are feminizing sea turtle primary sex ratios, reducing hatchling fitness, and, in extreme cases, limiting hatchling production, including for temperate nesting species such as loggerhead turtles (…
View article: Supplemental Table 3 from Nitrated polycyclic aromatic hydrocarbon (nitro-PAH) signatures and somatic mutations in diesel exhaust-exposed bladder tumors
Supplemental Table 3 from Nitrated polycyclic aromatic hydrocarbon (nitro-PAH) signatures and somatic mutations in diesel exhaust-exposed bladder tumors Open
Case-case associations between REC and TP53 mutation, NEBCS
View article: Supplementary Table S3 from Urine pH and Risk of Bladder Cancer in Northern New England
Supplementary Table S3 from Urine pH and Risk of Bladder Cancer in Northern New England Open
Supplementary Table S3 shows spot urine pH categorized into ≤6.0 and >6.0 and bladder cancer risk, stratified by smoking status.
View article: Table S5 from Analysis of several common APOBEC-type mutations in bladder tumors suggests links to viral infection
Table S5 from Analysis of several common APOBEC-type mutations in bladder tumors suggests links to viral infection Open
Table S5: Associations between driver mutations in BC and common risk factors
View article: Supplemental Table 6 from Nitrated polycyclic aromatic hydrocarbon (nitro-PAH) signatures and somatic mutations in diesel exhaust-exposed bladder tumors
Supplemental Table 6 from Nitrated polycyclic aromatic hydrocarbon (nitro-PAH) signatures and somatic mutations in diesel exhaust-exposed bladder tumors Open
Ever diesel and nitro-PAH signatures adjusted for smoking
View article: Supplemental Table 4 from Nitrated polycyclic aromatic hydrocarbon (nitro-PAH) signatures and somatic mutations in diesel exhaust-exposed bladder tumors
Supplemental Table 4 from Nitrated polycyclic aromatic hydrocarbon (nitro-PAH) signatures and somatic mutations in diesel exhaust-exposed bladder tumors Open
specific TP53 mutations and ever diesel
View article: Table S3 from Analysis of several common APOBEC-type mutations in bladder tumors suggests links to viral infection
Table S3 from Analysis of several common APOBEC-type mutations in bladder tumors suggests links to viral infection Open
Table S3: Positivity of virus transcript detection in bladder tumors from UROMOL
View article: Figure S1 from Analysis of several common APOBEC-type mutations in bladder tumors suggests links to viral infection
Figure S1 from Analysis of several common APOBEC-type mutations in bladder tumors suggests links to viral infection Open
Figure S1: Molecular characterization of BKPyV in NMIBC tumors and HBLAK cells
View article: Data from Urine pH and Risk of Bladder Cancer in Northern New England
Data from Urine pH and Risk of Bladder Cancer in Northern New England Open
Background: Acidic urine pH is associated with rapid hydrolysis of N-glucuronide conjugates of aromatic amines into metabolites that may undergo metabolism in the bladder lumen to form mutagenic DNA adducts. We previously reported that con…