Stilbene derivatives have wide range of activities. In an effort to find other potential activities of this kind of compounds, 17 derivatives, including resveratrol, were synthesized. Twelve of them were evaluated for their antiviral potential against severe acute respiratory syndrome (SARS)-CoV-induced cytopathicity in Vero E6 cell culture. The result showed that SARS virus was totally inhibited by compounds 17 and 19 (
Short interfering RNAs (siRNAs) are broadly used to manipulate gene expression in mammalian cells. Although chemical modification is useful for increasing the potency of siRNAs in vivo, rational optimization of siRNA performance through chemical modification is still a challenge. In this work, we designed and synthesized a set of siRNAs containing modified two-nucleotide 3'-overhangs with the aim of strengthening the interaction between the 3'-end of the siRNA strand and the PAZ domain of Ago2. Their efficiency of binding to the PAZ domain was calculated using a computer modeling program, followed by measurement of RNA-Ago2 interaction in a surface plasmon resonance biochemical assay. The results suggest that increasing the level of binding of the 3'-end of the guiding strand with the PAZ domain, and/or reducing the level of binding of the sense strand through modifying the two-nucleotide 3'-overhangs, affects preferential strand selection and improves siRNA activity, while we cannot exclude the possibility that the modifications at the 3'-end of the sense strand may also affect the recognition of the 5'-end of the guiding strand by the MID domain. Taken together, our work presents a strategy for optimizing siRNA performance through asymmetric chemical modification of 3'-overhangs and also helps to develop the computer modeling method for rational siRNA design.
Human APOBEC3G (hA3G), a cytidine deaminase with two cytidine deaminase domains (CDs), has been identified as an anti-HIV-1 host factor. Although the two CDs of hA3G have been extensively characterized, there is still debate on the role of the CDs in the biological function of hA3G. In this work, we constructed three hA3G mutants CD1-1, CD2-2 and CD2-1, which contain duplicate CD1 domain, duplicate CD2 domain and position switched CD domain respectively, and investigated the effect of CD domain replacement or switch upon virion encapsidation, Vif-mediated degradation, deamination and antiviral activity of hA3G. The results showed that the two CD domains were functionally equivalent in virion encapsidation and the interaction with HIV-1 Vif of hA3G, whereas CD domain switch or replacement greatly affected the sensitivity to Vif induced degradation, editing and antiviral activity of hA3G. Although the CD2 domain was shown to possess the deamination activity, CD2-2 incorporated efficiently into HIV-1 was unable to mutate viral cDNA, suggesting that CD1 also involved in the enzymatic function. Interestingly, CD2-1 retained considerable deamination activity with a different sequence preference. Taken together, our results suggest that CD domain may play a structural role in virion encapsidation and Vif-mediated degradation of hA3G, and coordination of the two CD domains is required for its editing and antiviral activity.
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