AI Article Synopsis
- The study used the nematode C. elegans to explore how different types of ionizing radiation affect gene expression, focusing on charged particles like protons and iron ions.
- After exposing the nematodes to radiation, they found that 3.4% of the analyzed genes showed changes in expression, with 193 genes up-regulated and 406 down-regulated, suggesting specific responses to different radiation types.
- A novel statistical clustering method revealed unique regulatory patterns among the genes influenced by each type of radiation, implying that different radiation types activate distinct homeostatic mechanisms based on their characteristics.
Article Abstract
We used the nematode C. elegans to characterize the genotoxic and cytotoxic effects of ionizing radiation in a simple animal model emphasizing the unique effects of charged particle radiation. Here we demonstrate by RT-PCR differential display and whole genome microarray hybridization experiments that gamma rays, accelerated protons and iron ions at the same physical dose lead to unique transcription profiles. 599 of 17871 genes analyzed (3.4%) showed differential expression 3 hrs after exposure to 3 Gy of radiation. 193 were up-regulated, 406 were down-regulated and 90% were affected only by a single species of radiation. A novel statistical clustering technique identified the regulatory relationships between the radiation-modulated genes and showed that genes affected by each radiation species were associated with unique regulatory clusters. This suggests that independent homeostatic mechanisms are activated in response to radiation exposure as a function of track structure or ionization density.
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| http://dx.doi.org/10.1269/jrr.43.s199 | DOI Listing |
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