Factor·nasa
Gamma radiation exposure
Exposure of Arabidopsis thaliana plants to gamma radiation at different dose rates and across multiple generations
Confidence
90%
active
Source
Laanen P et al. (2021). Changes in DNA Methylation in Arabidopsis thaliana Plants Exposed Over Multiple Generations to Gamma Radiation doi:10.3389/fpls.2021.611783 ↗
Connections (22)
Gamma radiation increases DMRsAssociation
Gamma radiation increases CG methylation changesAssociation
Gamma radiation does not alter CHH methylation contextAssociation
Generation-dependent DMR induction by IRAssociation
Priming effect of prior IR exposure on DMR inductionAssociation
DMR response at low vs. high gamma doseAssociation
Threshold effect of IR on DMRs and plant responseAssociation
IR-induced methylation changes mainly in CG contextAssociation
DNA methylation may regulate plant response at low doseAssociation
MET1, CMT3, and SUVH5 upregulated by ionising radiationAssociation
CMT3 upregulated by ionising radiationAssociation
SUVH5 upregulated by ionising radiationAssociation
Gamma radiation shows quantitative dose-response in Arabidopsis growth and developmentAssociation
Gamma irradiation enhances antioxidant properties in soybeanAssociation
Gamma irradiation induces different DNA damage responses in Petunia cells at different dose ratesAssociation
Transcriptome response differs between acute and chronic ionizing radiationAssociation
Gamma irradiation affects long-storage Oryza sativa seedsAssociation
Gamma irradiation affects wheat seed germination and growthAssociation
Gamma irradiation enhances antioxidant and isoflavone concentration in soybeanAssociation
Gamma radiation alters oxidative stress response in ArabidopsisAssociation
Gamma radiation induces primary stress responses in ArabidopsisAssociation
Uranium and gamma radiation cause oxidative stress and biological changes in ArabidopsisAssociation