AI Article Synopsis
- Ground levels of solar UV-B radiation can damage DNA in plants, necessitating specific mechanisms for their protection like photoreception, flavonols, and DNA repair processes.
- Researchers studied Arabidopsis thaliana to determine the frequency and types of mutations caused by UV-B exposure, highlighting the role of the UVR2 photolyase in repairing DNA and maintaining genetic stability.
- The study found that the UVR2 mechanism is crucial for reducing mutation rates in both male and female plant lineages during flower development, ensuring the integrity of the plant's germline despite UV-B radiation exposure.
Article Abstract
Ground levels of solar UV-B radiation induce DNA damage. Sessile phototrophic organisms such as vascular plants are recurrently exposed to sunlight and require UV-B photoreception, flavonols shielding, direct reversal of pyrimidine dimers and nucleotide excision repair for resistance against UV-B radiation. However, the frequency of UV-B-induced mutations is unknown in plants. Here we quantify the amount and types of mutations in the offspring of Arabidopsis thaliana wild-type and UV-B-hypersensitive mutants exposed to simulated natural UV-B over their entire life cycle. We show that reversal of pyrimidine dimers by UVR2 photolyase is the major mechanism required for sustaining plant genome stability across generations under UV-B. In addition to widespread somatic expression, germline-specific UVR2 activity occurs during late flower development, and is important for ensuring low mutation rates in male and female cell lineages. This allows plants to maintain genome integrity in the germline despite exposure to UV-B.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5146273 | PMC |
| http://dx.doi.org/10.1038/ncomms13522 | DOI Listing |
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