Titlebook: Selenium and Nano-Selenium in Environmental Stress Management and Crop Quality Improvement; Mohammad Anwar Hossain,Golam Jalal Ahammed,Mic

異端邪說下

Selenium- and Nano-Selenium-Mediated Cold-Stress Tolerance in Crop Plants,proteins. Exogenous selenium enhances ascorbate–glutathione cycle-related enzyme activities that regulate plant metabolism under chilling-stress conditions. Selenium enhances the tolerance of crops to low-temperature stress by regulating the expression of sulfur-related genes. Applications of seleni

有罪

Selenium and Nano-Selenium-Mediated Arsenic Stress Tolerance in Plants,hes that insight into Se and nano-Se-mediated amelioration of As burden in plants. The interpretation of Se-induced changes at transcript and protein level will help to present a complete inventory of genes and proteins and the pathways involved in the reduction of As stress in plants.

LURE

Selenium and Nano-Selenium-Mediated Biotic Stress Tolerance in Plants,ect plants from biotic stresses, and deter herbivores via volatile Se (dimethyl selenide). Nanotechnology has the potential to revolutionize the agricultural and food industry with novel tools for the molecular management of diseases, rapid disease detection, and enhancing the ability of plants to a

淘氣

監(jiān)禁

Effect of Selenium Application on Quality Improvements of Seeds and Fruits,efficient role of Se treatments in improving the quality of seeds and fruits. It highlights the influence of different strategies of Se application on improving the physiochemical quality changes such as biologically active compounds, nutritional values, Se content, and physiological parameters of s

NIP

Application of Selenium and Nano-selenium in Abiotic Stress Management, Crop Improvement, and Agro-chnologies. Se and nano-Se regulate nutrient uptake through interference with intrinsic regulatory mechanisms. Furthermore, they are known to interfere with the intake of some micronutrient elements, such as molybdenum, which is a cofactor for the nitrate reductase enzyme. They improve the quality o

MILL

Selenium Toxicity and Tolerance in Plants: Recent Progress and Future Perspectives,in hyperaccumulator species and evaporate it through the stomata. This chapter summarizes the previous and recent scientific results regarding the background mechanisms of Se toxicity and tolerance in order to provide a state-of-the-art overview about Se toxicity and tolerance in higher plants.

Deduct

Manipulation of Selenium Metabolism in Plants for Tolerance and Accumulation,ng plants in Se. Alternatively, genetic engineering can be exploited to develop transgenics with substantial capacity to absorb and accumulate Se in the aboveground parts, particularly benefiting from the genetic pool of Se hyperaccumulators. Most of the transgenics assayed in the field overexpress

防止

Biological Activity of Selenium in Plants: Physiological and Biochemical Mechanisms of Phytotoxicitifferences in the biotransformations of Se determine the possibility of the accumulation and level of Se in plant tissues. The positive role of Se is attributed mainly to the activation of enzymatic and non-enzymatic components of plant antioxidant defence, but it is also related to improved mineral

MIRTH

Use of Selenium Accumulators and Hyperaccumulators in Se-Phytoremediation Technologies: Recent Prog. The results reveal a cutting-edge application of emerging strategies and technologies to problems of Se in soil. Progress in Se phytoremediation is hindered by a lack of understanding of complex interactions in the rhizosphere and plant-based interactions that allow Se translocation and accumulati