How does ionizing radiation affect amyloidogenesis in plants?

Purpose: Ionizing radiation is a harsh environmental factor that could induce plant senescence. We hypothesized that radiation-related senescence remodels proteome, particularly by triggering the accumulation of prion-like proteins in plant tissues. The object of this study, pea ( L.

Soybean recovery from stress imposed by multigenerational growth in contaminated Chernobyl environment.

Ionizing radiation is a genotoxic anthropogenic stressor. It can cause heritable changes in the plant genome, which can be either adaptive or detrimental. There is still considerable uncertainty about the effects of chronic low-intensity doses since earlier studies reported somewhat contradictory conclusions.

Differential expression of flowering genes in Arabidopsis thaliana under chronic and acute ionizing radiation.

Purpose: Chronic and acute irradiations have drastic effects on flowering stage that plays an important role in further seed development and can determine seed yield. The expression of the key flowering genes, AP1, CO, GI, FT, FLC, and LFY, sensitive to irradiation repair gene RAD51 and the proliferation gene PCNA2 were studied in the wild-type Arabidopsis thaliana (Columbia ecotype) under chronic and acute irradiations.

Materials And Methods: Chronic irradiation was performed using the radioactive isotope СsCl in two total doses of 3 cGy and 17 cGy, with the dose rate of 10 cGy/s and 6.

DNA damage, repair monitoring and epigenetic DNA methylation changes in seedlings of Chernobyl soybeans.

This pilot study was carried out to assess the effect of radio-contaminated Chernobyl environment on plant genome integrity 27 years after the accident. For this purpose, nuclei were isolated from root tips of the soybean seedlings harvested from plants grown in the Chernobyl area for seven generations. Neutral, neutral-alkaline, and methylation-sensitive comet assays were performed to evaluate the induction and repair of primary DNA damage and the epigenetic contribution to stress adaptation mechanisms.

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The paper discusses different methodological approaches to the study of transgenerational alterations of metabolic pathways in soybean and flax seeds in the process of adaptation to chronic irradiation in the Chernobyl alienation zone. A combination of general biological methods and novel approaches, such as genomics, proteomics, cytogenetics, and mutagenesis, allows researchers to analyze an organism’s systemic response and identify the latent chronic irradiation effects in plants from the Chernobyl zone. The proteomic approaches are especially efficient, since they range from the identification of changes in abundance and folding of individual proteins to the characterization of posttranslational modifications, trends of qualitative changes during seed maturation, or protein-protein interactions during plant growth and development under permanent impacts of stress factors.