2021
Identification of Dose-Dependent DNA Damage and Repair Responses From Subchronic Exposure to 1,4-Dioxane in Mice Using a Systems Analysis Approach
Charkoftaki G, Golla JP, Santos-Neto A, Orlicky DJ, Garcia-Milian R, Chen Y, Rattray NJW, Cai Y, Wang Y, Shearn CT, Mironova V, Wang Y, Johnson CH, Thompson DC, Vasiliou V. Identification of Dose-Dependent DNA Damage and Repair Responses From Subchronic Exposure to 1,4-Dioxane in Mice Using a Systems Analysis Approach. Toxicological Sciences 2021, 183: 338-351. PMID: 33693819, PMCID: PMC8921626, DOI: 10.1093/toxsci/kfab030.Peer-Reviewed Original ResearchConceptsDX exposureBile acid quantificationRepair responseBDF-1 miceDNA damageDose-dependent DNA damageEffects of exposureHistopathological studySubchronic exposureImmunohistochemical analysisLiver carcinogenLiver carcinogenicityLiver transcriptomicsDrinking waterMetabolomic profilingMicePotential mechanismsLiverEnvironmental chemicalsState maximum contaminant levelToxic effectsCell deathExposureOxidative stress responsePresent study
2020
Gene X environment: the cellular environment governs the transcriptional response to environmental chemicals
Burman A, Garcia-Milian R, Whirledge S. Gene X environment: the cellular environment governs the transcriptional response to environmental chemicals. Human Genomics 2020, 14: 19. PMID: 32448403, PMCID: PMC7247264, DOI: 10.1186/s40246-020-00269-1.Peer-Reviewed Original ResearchConceptsTranscriptional responseCellular environmentCellular contextGenetic sexUnique gene networksGene regulatory networksEnvironment interactionEnvironmental chemicalsGene expression studiesUnique transcriptional profileGene expression array dataExpression array dataPhenotype of cellsGene networksRegulatory networksTranscriptional profilesBiological functionsCellular organizationExpression studiesFemale cellsCellular responsesPhysiological cuesHuman gene expression studiesMolecular pathwaysGenetic results