Abstract

The golden (Syrian) hamster (Mesocricetus auratus) is a small rodent belonging to the Cricetidae family. Golden hamsters have several unique characteristics that are advantageous in the study of reproductive and developmental biology: a highly stable 4-day estrous cycle, a high responsiveness to conventional superovulation methods, and a shortest gestation period (16days) known among eutherian mammals. Besides these advantages, the technical ease of in vitro fertilization (IVF) and intracytoplasmic sperm injection (ICSI) in this species has contributed much to our understanding of the basic mechanisms of mammalian fertilization. However, the exceptionally strong in vitro developmental block of hamster embryos, especially at the two-cell stage, has hampered the production of genetically modified hamsters, which has resulted in limited use of this species for biomedical research. However, the recently developed in vivo genome editing method (improved genome editing via oviductal nucleic acid delivery, i-GONAD) has overcome this shortcoming and made production of gene-edited hamsters much easier than before. This method has the potential to provide a means of reexamining genes whose functions cannot be identified using mouse models, thus leading to the better understanding of gene functions in mammals. In this chapter, we present our procedure for editing the genome of the golden hamster using i-GONAD.

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