Akademik Veri Yönetim Sistemi
JOURNAL OF GENETICS, cilt.104, ss.1-10, 2025 (SCI-Expanded, Scopus)
After the arrival of the CRISPR/Cas9 genome editing technology, genetic
engineering of model organisms has become much faster and more
efficient. The development of genetically modified mouse models is also
facilitated by the application of various CRISPR methodologies. Although
the very first studies utilized pronuclear injection (PNI) of Cas9 mRNA
and sgRNAs into the zygote stage embryos to create knockout and knockin
mutations, the repertoire of techniques and collection of reagents for
CRISPR editing has rapidly expanded. This presents researchers in the
field with a versatility of choices for genetic engineering. However,
there are not many comparative studies that analysed the efficacy of
gene editing when Cas9 and sgRNA/ssDNA oligos were transferred to the
embryos by different methodologies. Here, we aimed to compare two
different methods, electroporation and PNI. One of the recent
developments gaining wide use in mouse model research is the application
of electroporation for the introduction of Cas9/sgRNA ribonucleoprotein
complexes into zygote stage embryos. Here, we have used this technique
to generate albino coat-coloured C57BL/6J mice by targeted inactivation
of the mouse tyrosinase gene through indel or knockin mutations. We have
also applied the PNI protocol with the same set of reagents, to compare
the efficiency of the two techniques in generation of indel and knockin
mutations. Although PNI results in significantly higher efficiency for
knockin mutations, it requires specialized equipment setup and advanced
training in embryo micromanipulation and microinjection. Therefore, for
the generation of simple gene knockouts by indel mutations,
electroporation can be used.