AI Article Synopsis
- UV-B radiation damages plant DNA and triggers protective responses, such as synthesizing UV-B-protective compounds and endopolyploidy, particularly in monocentric plants.
- Researchers studied 12 herbaceous species to assess the endopolyploidy index and UV-B protective compounds in relation to UV-B exposure in different habitats.
- Results showed that monocentric species had a stronger increase in both UV-B protectives and endopolyploidy in response to UV-B stress, while holocentric species exhibited minimal response, indicating their potential adaptation to high UV environments.
Article Abstract
Background And Aims: Ultraviolet-B radiation (UV-B) radiation damages the DNA, cells and photosynthetic apparatus of plants. Plants commonly prevent this damage by synthetizing UV-B-protective compounds. Recent laboratory experiments in Arabidopsis and cucumber have indicated that plants can also respond to UV-B stress with endopolyploidy. Here we test the generality of this response in natural plant populations, considering their monocentric or holocentric chromosomal structure.
Methods: We measured the endopolyploidy index (flow cytometry) and the concentration of UV-B-protective compounds in leaves of 12 herbaceous species (1007 individuals) from forest interiors and neighbouring clearings where they were exposed to increased UV-B radiation (103 forest + clearing populations). We then analysed the data using phylogenetic mixed models.
Key Results: The concentration of UV-B protectives increased with UV-B doses estimated from hemispheric photographs of the sky above sample collection sites, but the increase was more rapid in species with monocentric chromosomes. Endopolyploidy index increased with UV-B doses and with concentrations of UV-B-absorbing compounds only in species with monocentric chromosomes, while holocentric species responded negligibly.
Conclusions: Endopolyploidy seems to be a common response to increased UV-B in monocentric plants. Low sensitivity to UV-B in holocentric species might relate to their success in high-UV-stressed habitats and corroborates the hypothesized role of holocentric chromosomes in plant terrestrialization.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7750947 | PMC |
| http://dx.doi.org/10.1093/aob/mcaa109 | DOI Listing |
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