X. At the same time, the WSSV loads in shrimp were monitored by quantitative real-time PCR (right). The statistically significant differences between treatments were represented with asterisk (*P,0.05). Lane headings showed the solutions used for injections. doi:10.1371/journal.pone.0050581.g(0 h post-inoculation) (Fig. 4B). Taken together, these results indicated that Ago1A and Ago1B isoforms that contained the Ago1-fragment 2 played important roles in shrimp antiviral immunity.Effects of Ago1 Isoforms on Shrimp Antiviral ImmunityTo investigate the roles of Ago1 isoforms in antiviral immunity, the expression of Ago1 isoforms were each silenced in shrimp using isoform-specific siRNAs, followed by WSSV challenge. First, to test the specificities of Ago1 isoform-specific siRNAs, FLAGtagged Ago1 isoform constructs and isoform-specific siRNAs were transfected into S2 cells. Western blot analysis showed that the expression of Ago1A, Ago1B or Ago1C isoforms was inhibited by the corresponding sequence-specific Ago1A-siRNA, Ago1BsiRNA or Ago1C-siRNA, but not affected by control siRNAs and other isoform-specific siRNAs (Fig. 5). These data revealed that the Ago1A/B-siRNA targeting both Ago1A and Ago1B could silence the expression of both Ago1A and Ago1B, but not Ago1C (Fig. 5). Sequence analysis indicated three nucleotides were different between Ago1A and Ago1C at the 59 termini (Fig. 1). Western blotting revealed that the Ago1A-siRNA could not knockdown the expression of Ago1B and Ago1C, and the Ago1BsiRNA could not silence the expression of Ago1A and Ago1C (Fig. 5). These data showed that the siRNAs used here were highly sequence- specific. It was found that the expression of endogenous Ago1A was knocked down by approximately 55?0 by Ago1A-siRNA at the low concentration, resulting in an 11-fold purchase ASA-404 increase of viral loads compared with the control (WSSV only) (P,0.05). However, the control siRNA at the high concentration had no effect on the Ago1A expression and virus replication (Fig. 6A). 22948146 Interestingly, when Ago1A-siRNA was injected at high concentration, Ago1A mRNA was reduced by 85?5 and the Ago1B mRNA was significantly up-regulated at the same time (Fig. 6A). Using these conditions, WSSV BIRB 796 biological activity infection in shrimp was evaluated. Near-complete knockdown of Ago1A led to approximately 20-fold increase in viral load in the treatment (WSSV+ Ago1B-siRNA [high concentration]) compared with the control (WSSV only) (P,0.05) (Fig. 6A), indicating that Ago1A played an important role in WSSV infection. To inhibit the expression of Ago1B, Ago1B-siRNA was delivered at low or high concentration into shrimp, followed by the evaluation of WSSV infection in shrimp. It was demonstrated that Ago1B mRNA was reduced by 30?3 when shrimp were injected with Ago1B-siRNA at the low concentration, leading to a 12-fold increase in WSSV loads compared with the control (WSSV only) (P,0.05) (Fig. 6B). These data suggested that Ago1B was also involved in the host defense against virus infection. However, the near-complete inhibition of Ago1B expression by Ago1B-siRNA at high concentration also induced a significant up-regulation of the Ago1A mRNA, but no significant difference in viral loads was observed between treatment (WSSV+Ago1B-siRNA [high concentration]) and the control (WSSV only) (Fig. 6B). These data suggested that the upregulation of Ago1A might compensate for the loss of Ago1B in the host defense against WSSV infection.In contrast to the antiviral roles of the up-reg.X. At the same time, the WSSV loads in shrimp were monitored by quantitative real-time PCR (right). The statistically significant differences between treatments were represented with asterisk (*P,0.05). Lane headings showed the solutions used for injections. doi:10.1371/journal.pone.0050581.g(0 h post-inoculation) (Fig. 4B). Taken together, these results indicated that Ago1A and Ago1B isoforms that contained the Ago1-fragment 2 played important roles in shrimp antiviral immunity.Effects of Ago1 Isoforms on Shrimp Antiviral ImmunityTo investigate the roles of Ago1 isoforms in antiviral immunity, the expression of Ago1 isoforms were each silenced in shrimp using isoform-specific siRNAs, followed by WSSV challenge. First, to test the specificities of Ago1 isoform-specific siRNAs, FLAGtagged Ago1 isoform constructs and isoform-specific siRNAs were transfected into S2 cells. Western blot analysis showed that the expression of Ago1A, Ago1B or Ago1C isoforms was inhibited by the corresponding sequence-specific Ago1A-siRNA, Ago1BsiRNA or Ago1C-siRNA, but not affected by control siRNAs and other isoform-specific siRNAs (Fig. 5). These data revealed that the Ago1A/B-siRNA targeting both Ago1A and Ago1B could silence the expression of both Ago1A and Ago1B, but not Ago1C (Fig. 5). Sequence analysis indicated three nucleotides were different between Ago1A and Ago1C at the 59 termini (Fig. 1). Western blotting revealed that the Ago1A-siRNA could not knockdown the expression of Ago1B and Ago1C, and the Ago1BsiRNA could not silence the expression of Ago1A and Ago1C (Fig. 5). These data showed that the siRNAs used here were highly sequence- specific. It was found that the expression of endogenous Ago1A was knocked down by approximately 55?0 by Ago1A-siRNA at the low concentration, resulting in an 11-fold increase of viral loads compared with the control (WSSV only) (P,0.05). However, the control siRNA at the high concentration had no effect on the Ago1A expression and virus replication (Fig. 6A). 22948146 Interestingly, when Ago1A-siRNA was injected at high concentration, Ago1A mRNA was reduced by 85?5 and the Ago1B mRNA was significantly up-regulated at the same time (Fig. 6A). Using these conditions, WSSV infection in shrimp was evaluated. Near-complete knockdown of Ago1A led to approximately 20-fold increase in viral load in the treatment (WSSV+ Ago1B-siRNA [high concentration]) compared with the control (WSSV only) (P,0.05) (Fig. 6A), indicating that Ago1A played an important role in WSSV infection. To inhibit the expression of Ago1B, Ago1B-siRNA was delivered at low or high concentration into shrimp, followed by the evaluation of WSSV infection in shrimp. It was demonstrated that Ago1B mRNA was reduced by 30?3 when shrimp were injected with Ago1B-siRNA at the low concentration, leading to a 12-fold increase in WSSV loads compared with the control (WSSV only) (P,0.05) (Fig. 6B). These data suggested that Ago1B was also involved in the host defense against virus infection. However, the near-complete inhibition of Ago1B expression by Ago1B-siRNA at high concentration also induced a significant up-regulation of the Ago1A mRNA, but no significant difference in viral loads was observed between treatment (WSSV+Ago1B-siRNA [high concentration]) and the control (WSSV only) (Fig. 6B). These data suggested that the upregulation of Ago1A might compensate for the loss of Ago1B in the host defense against WSSV infection.In contrast to the antiviral roles of the up-reg.