Amino acid sequence differences in the regions of the predicted antigenic sites on the viral capsid may explain some of the differences in neutralization among the different strains. The neutralization titers suggests that the 2014 outbreak EV-D68 viruses share some antigenic sites with the prototype virus and also present some unique antigenic sites distinct from the prototype. However, the commercial IVIG lots tested all contained high levels of neutralizing antibodies against EV-D68.
Background: Cd is one of the highly toxic heavy metals to most organisms, including humans and plants, and Cd-contaminated rice from China has become a global food safety issue. The early prediction of OsPCR (the plant cadmium resistance protein) which contained a PLAC8 domain was related with the accumulation of Cd in rice. To further understand the biological function of the OsPCR genes on the Cd tolerance and Cd accumulation in rice, we used a low grain-Cd-accumulating rice (xiushui 11) and a high grain-Cd-accumulating rice (xiushui 110) varieties to analyze the relationship between the expression levels of the two most abundant expression genes (OsPCR1 and OsPCR3) and the Cd concentrations in different tissues at different growth periods during Cd stress, and transgenic experiments of OsPCR1 and OsPCR3 were carried out. Results: OsPCR1 and OsPCR3 were closely related with Cd accumulation. Overexpression of OsPCR1 and OsPCR3 could not only increase the Cd tolerance, but also decrease the Cd accumulation obviously in different parts of the transgenic rice plants (especially in the rice grains), while the RNAi expression plants showed the opposite results. Conclusions: These results indicate that OsPCR1 and OsPCR3 play critical roles in Cd accumulation in rice, which provides a theoretical basis for the safe production of rice.
Cadmium (Cd) contamination has been recognized as a major threat to the agricultural system and crop production which posing serious threat to human health. Salicylic acid (SA) serves as an important signaling molecule and plays an important role in against Cd toxicity. In the previous field experiments, we found SA spraying could reduce the Cd accumulation of rice grain grown in Cdcontaminated soil. This study investigated the effects and mechanisms of SA spraying on leaves of rice seedlings under Cd stress. Results showed that SA treatment could alleviate the Cd toxicity of rice not by changing the physical and chemical properties of the soil, but by increasing the activities of antioxidant enzymes to reduce the H 2 O 2 accumulation in rice. And the key factor of SA treatment reducing Cd accumulation in rice grain was the decreasing of Cd contents in rice leaves at the flowering stage. This indicated that SA could modulate the Cd accumulation of shoots to reduce the Cd translocation to rice grain. Furthermore, SA could increase the H 2 O 2 contents in a short-term to activate the SA-signaling pathway, and modulate the expression levels of Cd transporters (OsLCT1 and OsLCD) in rice leaves toraise Cd tolerance and reduce Cd accumulation in rice grain. Thus, SA spraying can be used as an effective measure to cope with Cd contamination in paddy soils. Recently, Cd-contaminated rice has also occurred in China, which poses important public health risks (Liu et al., 2016b). Therefore, it is essential to produce low-Cd rice to reduce the potential risks that
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