Photoprotective pigments, like those involved in the xanthophyll cycle, help plants avoid oxidative damage caused by excess radiation. This study aims to characterize a spectrum of strategies used to cope with light stress by a diverse group of prairie plants at Cedar Creek Ecosystem Science Reserve (East Bethel, MN). We find that concentrations of photosynthetic and photoprotective pigments are highly correlated with one another and with other physiological traits across species and over time, and tend to be phylogenetically conserved. During a period of water limitation, plots dominated by species with constitutively low pigment concentrations showed a greater decline in mean reflectance and photochemical reflectance index, a reflectance-based indicator of photoprotective physiology, possibly due to alterations in canopy structure. Our findings suggest two contrasting strategies for withstanding light stress: (1) Using photoprotective pigments to dissipate excess energy, and (2) altering canopy structure to minimize absorbance of excess radiation., S. Kothari, J. Cavender-Bares, K. Bitan, A. S. Verhoeven, R. Wang, R. A. Montgomery, J. A. Gamon., and Obsahuje bibliografické odkazy
Melatonin has different functions in plant growth and development, especially in the protection of plants suffering from various forms of abiotic stress. We explored the effect of melatonin priming on photosynthetic activity of tomato (Lycopersicon esculentum L.) leaves. Our results showed that 100 µM is the optimal concentration used for alleviation of the damage to photosynthetic apparatus. Melatonin priming both in the form of leaf spray and direct root application was found to reduce the damage to photosynthetic apparatus, and increase the electron transfer rate and quantum yield of PSI and PSII photochemistry, to protect the thylakoid membrane from damage caused by low-temperature stress. Our study provides fundamental information for further research on the molecular mechanism of melatonin function in regulating photosynthesis., X. L. Yang, H. Xu, D. Li, X. Gao, T. L. Li, R. Wang., and Obsahuje bibliografii
Pyrococcus furiosus is a hyperthermophilic archaeon. Its ribulose-1,5-bisphosphate carboxylase/oxygenase (PfRubisco) has only large subunit (L). PfRubisco has a novel (L2)5, decameric structure and it possesses higher carboxylase activity and thermotolerance. To assess the potential functionality of PfRubisco in higher plants under high-temperature stress, PfRubisco coding sequence was transiently expressed in Nicotiana benthamiana by Pea early browning virus mediated ectopic expression. The transgenic PfRubisco plants produced chlorotic yellow stripes in their leaves. Relative to the control leaves, those with yellow stripes exhibited decreased net photosynthetic rate and chlorophyll content, altered chloroplast ultrastructure, and more severe photoinhibition of both photosystem I and II. We concluded that the ectopic expression of PfRubisco might disrupt the chloroplast development and function in N. benthamiana. The potential cause of the disruption was discussed. and X. -G. Li ... [et al.].