Yoo Gyeong Park

TL;DR: It is hypothesized that tomato plants have a greater capacity for tolerating saline stress through the improvement of photosynthetic metabolism and chloroplast proteome expression after silicon supplementation, and silicon plays an important role in moderating damage to chloroplasts and their metabolism in saline environments.

TL;DR: The observed responses to silicon supply in high temperature stressed-plants indicate that Si, particularly in the form of K2SiO3, has a significant role in limiting the negative effects of high temperature stress by maintaining the photosynthetic proteins and stress-responsive proteins of the ascorbate glutathione defense mechanism.

TL;DR: Overall, the outcomes of this study can be utilized for the large scale production of pharmaceutically important secondary metabolites from S. kakudensis through cell suspension cultures.

TL;DR: In this article, the authors investigated the role of silicon on the in vitro growth and resistance to salt stress of Dianthus caryophyllus ‘Tula’ in a factorial design with 0, 50, or 100 mg·L−1 of potassium silicate (K2SiO3) in combination with NaCl.

TL;DR: The results suggested that the RBW which provided a wider spectrum of PAR and the highest CO2 concentration provided the most the suitable environment condition for vegetative growth of lettuce among the tested light sources.