AI Article Synopsis
- Ionizing radiation can cause biological effects on living organisms depending on factors such as radiation type, dose, exposure time, tissue type, and the individual's health and age.
- The paper reviews how ionizing radiation impacts nuclear and mitochondrial DNA, particularly focusing on mechanisms that lead to DNA damage and non-targeted effects, like genomic instability and bystander effects in non-irradiated cells.
- It also discusses the interaction of ionizing radiation with other environmental stressors, including electromagnetic fields and chemical contaminants, highlighting the combined effects on genomic instability and methods for assessing cellular damage.
Article Abstract
Ionizing radiations are considered to be risk agents that are responsible for the effects on interaction with living matter. The occurring biological effects are due to various factors such as: dose, type of radiation, exposure time, type of biological tissue, health condition and the age of the person exposed. The mechanisms involved in the direct modifications of nuclear DNA and mitochondrial DNA are reviewed. Classical target theory of energy deposition in the nucleus that causes DNA damages, in particular DNA double-strand breaks and that explanation of the biological consequences of ionizing radiation exposure is a paradigm in radiobiology. Recent experimental evidences have demonstrated the existence of a molecular mechanism that explains the non-targeted effects of ionizing radiation exposure. Among these novel data, genomic instability and a variety of bystander effects are discussed here. Those bystander effects of ionizing radiation are fulfilled by cellular communication systems that give rise to non-targeted effects in the neighboring non irradiated cells. This paper provides also a commentary on the synergistic effects induced by the co-exposures to ionizing radiation and various physical agents such as electromagnetic fields and the co-exposures to ionizing radiation and chemical environmental contaminants such as metals. The biological effects of multiple stressors on genomic instability and bystander effects are also discussed. Moreover, a brief presentation of the methods used to characterize cyto- and genotoxic damages is offered.
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