Abstract
Reptiles are important model organisms in developmental and evolutionary biology, but are used less widely than other amniotes such as mouse and chicken. One of the main reasons for this is that has proven difficult to conduct CRISPR/Cas9-mediated genome editing in many reptile species despite the widespread use of this technology in other taxa. Certain features of reptile reproductive systems make it difficult to access one-cell or early-stage zygotes, which represents a key impediment to gene editing techniques. Recently, Rasys and colleagues reported a genome editing method using oocyte microinjection that allowed them to produce genome-edited Anolis lizards. This method opened a new avenue to reverse genetics studies in reptiles. In the present article, we report the development of a related method for genome editing in the Madagascar ground gecko (Paroedura picta), a well-established experimental model, and describe the generation of Tyr and Fgf10 gene-knockout geckos in the F0 generation.
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