Project description:In order to test Norway spruce radiosensitivity to gamma radiation, 6 days old seedlings were exposed for 48 h to 60-Co source at dose rates 1, 10, 40 or 100 mGy/h.

Project description:RNA-seq of Norway spruce seedlings exposed to gamma radiation

Project description:S. aureus was exposed to gamma radiation at an irradiation dose of 100 Gy, and its descendant were cultured under normal conditions. Protein identification and quantification of unirradiated, irradiated, and descendant of irradiated S. aureus were performed using DIA proteomic technology to obtain protein abundance profiles for each group. Combined with biological experiments, further functional enrichment analysis and protein-protein interaction network analysis were performed to explore the effect of gamma radiation on the pathogenicity of S. aureus.

Project description:To test Arabidopsis thaliana radiosensitivity to gamma radiation, 6 days old seedlings were exposed for 48 h to 60-Co source at dose rates 1, 10, 40,100 or 290 mGy/h.

Project description:We performed comparative RNA sequencing of the early (4 hrs) dose response (0.5 – 200 cGy whole body dose, 10 dose levels) of the mouse aorta to proton and gamma radiation. Total-body proton radiation of conscious animals was performed using a proton beam produced by a cyclotron system, while total-body gamma radiation of animals was performed using a Caesium-137 gamma source. A trend analysis identified genes that showed a dose response, using data permutation to estimate a false discovery rate (q-value) for each gene. We identified 29 and 194 genes (q-value ≤ 0.1) that were upregulated with increasing doses of proton and gamma radiation, respectively. No genes were down-regulated. While fewer genes were dose-responsive to proton radiation, the magnitude of the effect was greater than with gamma radiation. These highly responsive genes were enriched for pathways involved in the response to DNA damage, apoptosis, cellular stress and inflammation (p < 0.01). Gamma radiation responsive genes included the same pathways, but extended to genes in vasculature specific pathways. Genes responsive to both radiation types (19 genes at q-value ≤ 0.1) showed almost perfectly superimposable dose-response relationships. We observed the same superimposable dose response relationship of gamma and proton radiations in a subset of genes validated by quantitative PCR not only in the aorta but also in liver, lung, heart and kidney. Despite a relative similar relative biological effectiveness of protons and gamma photons and the activation of canonical radiation response pathways by both radiation types, we detected marked differences in the genomic response. It seems plausible that these genomic differences translate into differences in the biological processes leading to cardiovascular pathologies.

Project description:RNA-seq of Arabidopsis thaliana seedlings exposed to gamma radiation

Project description:Here, male and female B6C3F1 mice were given single or fractionated whole-body exposure(s) to a monoenergetic carbon ion radiotherapy beam at the Heavy Ion Medical Accelerator in Chiba, Japan, matching the radiation quality delivered to the normal tissue ahead of the tumour volume. These mice were then monitored for the remainder of their lifespan and a large number of T cell lymphomas were analysed, alongside those arising in mice exposed to equivalent doses of standard Cs137 gamma ray-irradiation. Using genome-wide DNA copy number analysis to identify genomic loci involved in radiation-induced lymphomagenesis and subsequent detailed analysis of Notch1, Ikaros, Pten, Trp53 and Bcl11b genes we compared the genetic profile of the carbon ion- and gamma ray-induced tumours. The canonical set of genes previously associated with radiation-induced T cell lymphoma was identified in both radiation groups. While the pattern of disruption of the various pathways was somewhat different between the radiation types, most notably Pten mutation frequency and loss of heterozygosity flanking Bcl11b, the most striking finding was the observation of large interstitial deletions at various sites across the genome in carbon ion-induced tumours, which were only seen infrequently in the gamma ray-induced tumours analysed. 32 unique tumours (12 gamma ray-induced, 20 carbon ion-induced) each with sex-matched reference DNA

Project description:Assessment of p53 targets by gene expression array analysis in irradiated and nonirradiated Wip1+/+ and Wip1-/- MEFs. Keywords: response to gamma radiation

Project description:The melanized yeast Exophiala dermatitidis is resistant to many environmental stresses, and is used as a model for understanding the diverse roles of melanin in fungi. To further our understanding resistance mechanism of E. dermatitidis to acute γ-radiation exposure and whether melanin plays a role in this process, we performed RNA-seq on WT and the melanin deficient mutant Δpks1 cultures exposed to γ-radiation at the dose of 1000 Gy, which resulted in ~50% cell deaths in both strains. We observed a dramatic transcriptomic response to γ-radiation that mobilizes pathways involved in morphological development, protein degradation, and DNA repair, and is unaffected by the presence of melanin.

Project description:Cells were treated with 2Gy gamma radiation and remain in culture for 6h at 37°C with 5 % CO2 and 95 % humidity..