AI Article Synopsis
- Carotenoids are vital for photosynthetic organisms like plants and algae, playing a key role in light absorption and protection against light stress.
- This study focused on Euglena gracilis, showing that while zeaxanthin accumulates in the dark, other carotenoids like β-carotene increase significantly with light exposure, particularly in response to blue-light intensity.
- The research indicates that the amount of β-carotene in E. gracilis is influenced by light intensity, which may help the organism adapt to varying light conditions throughout the day and night.
Article Abstract
Carotenoids are essential components of photosynthetic organisms including land plants, algae, cyanobacteria, and photosynthetic bacteria. Although the light-mediated regulation of carotenoid biosynthesis, including the light/dark cycle as well as the dependence of carotenoid biosynthesis-related gene translation on light wavelength, has been investigated in land plants, these aspects have not been studied in microalgae. Here, we investigated carotenoid biosynthesis in Euglena gracilis and found that zeaxanthin accumulates in the dark. The major carotenoid species in E. gracilis, namely β-carotene, neoxanthin, diadinoxanthin and diatoxanthin, accumulated corresponding to the duration of light irradiation under the light/dark cycle, although the translation of carotenoid biosynthesis genes hardly changed. Irradiation with either blue or red-light (3 μmol photons m s) caused a 1.3-fold increase in β-carotene content compared with the dark control. Blue-light irradiation (300 μmol photons m s) caused an increase in the cellular content of both zeaxanthin and all trans-diatoxanthin, and this increase was proportional to blue-light intensity. In addition, pre-irradiation with blue-light of 3 or 30 μmol photons m s enhanced the photosynthetic activity and tolerance to high-light stress. These findings suggest that the accumulation of β-carotene is regulated by the intensity of light, which may contribute to the acclimation of E. gracilis to the light environment in day night conditions.
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| http://dx.doi.org/10.1016/j.jphotobiol.2020.111950 | DOI Listing |
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