Enabling Xenopus oocytes and embryos to perform RNAi

Although Xenopus laevis is a powerful model organism that has provided critical mechanistic insights into vertebrate development, cell biology and neural biology its utility has been limited by a lack of genetic analysis and gene manipulation. Other organisms that are difficult to manipulate genetically have often been studied by the use of RNAi, the inactivation of specific genes through the use of small interfering RNAs (siRNAs) that target the mRNAs of these genes for degradation. However, RNAi does not work in Xenopus oocytes or early embryos, making it impossible to use siRNAs in the analysis of early stages of Xenopus development. Thus new methods or tools that would support the study of these events are greatly needed. Recently, we discovered that Xenopus oocytes and early embryos lack functional Ago2, the nuclease containing protein that is guided to targeted mRNAs by siRNAs, which would explain why these cells are unable to carry out RNAi. Fortunately, we have also found that exogenous Ago2 generated from injected in vitro synthesized mRNA overcomes this deficiency. Thus we can now perform RNAi in Xenopus oocytes and early embryos, potentially making them amenable to genetic analysis through inactivation of specific gene products.