% pubman genre = article @article{item_3014634, title = {{Application and optimization of CRISPR{\textendash}Cas9-mediated genome engineering in axolotl ( Ambystoma mexicanum )}}, author = {Fei, Ji-Feng and Lou, Wilson Pak-Kin and Knapp, Dunja and Murawala, Prayag and Gerber, Tobias and Taniguchi, Yuka and Nowoshilow, Sergej and Khattak, Shahryar and Tanaka, Elly M.}, language = {eng}, issn = {1754-2189; 1750-2799}, doi = {10.1038/s41596-018-0071-0}, publisher = {Nature Publishing Group}, address = {London}, year = {2018}, date = {2018-12}, abstract = {{Genomic manipulation is essential to the use of model organisms to understand development, regeneration and adult physiology. The axolotl (Ambystoma mexicanum), a type of salamander, exhibits an unparalleled regenerative capability in a spectrum of complex tissues and organs, and therefore serves as a powerful animal model for dissecting mechanisms of regeneration. We describe here an optimized stepwise protocol to create genetically modified axolotls using the CRISPR{\textendash}Cas9 system. The protocol, which takes 7{\textendash}8 weeks to complete, describes generation of targeted gene knockouts and knock-ins and includes site-specific integration of large targeting constructs. The direct use of purified CAS9-NLS (CAS9 containing a C-terminal nuclear localization signal) protein allows the prompt formation of guide RNA (gRNA){\textendash}CAS9-NLS ribonucleoprotein (RNP) complexes, which accelerates the creation of double-strand breaks (DSBs) at targeted genomic loci in single-cell-stage axolotl eggs. With this protocol, a substantial number of F0 individuals harboring a homozygous-type frameshift mutation can be obtained, allowing phenotype analysis in this generation. In the presence of targeting constructs, insertions of exogenous genes into targeted axolotl genomic loci can be achieved at efficiencies of up to 15{\textpercent} in a non-homologous end joining (NHEJ) manner. Our protocol bypasses the long generation time of axolotls and allows direct functional analysis in F0 genetically manipulated axolotls. This protocol can be potentially applied to other animal models, especially to organisms with a well-characterized transcriptome but lacking a well-characterized genome.}}, journal = {{Nature Protocols}}, volume = {13}, pages = {2908--2943}, }