RRC ID 89505
Author Okamura E, Matsumoto S, Mizutani E, Murata K, Tanimoto Y, Dinh TTH, Suzuki H, Kuno A, Kang W, Mikami N, Ema T, Morimoto K, Kato K, Matsumoto T, Masuyama N, Kijima Y, Nagae G, Muto M, Morimura T, Mori H, Sugiyama F, Takahashi S, Aburatani H, Woltjen K, Yachie N, Mizuno S, Ema M.
Title Highly efficient and low-mosaicism piggyBac transgenesis platform for rapid founder phenotyping.
Journal iScience
Abstract Although pronuclear microinjection is the most widely used method for producing transgenic (Tg) animals, phenotypic characterization is usually performed from the next generation onwards because the production efficiency is limited. Conventional Cre-loxP-based conditional knockout (cKO) mouse production requires generating two genetically modified strains and multiple rounds of breeding before cKO mice are available for analysis. Here, we optimized a piggyBac transposon-based method of Tg mouse production and established conditions under which nearly all F0 embryos are Tg. Using a single-cell RNA sequencing-based strategy, we characterized mosaicism in F0 embryos and demonstrated that piggyBac-mediated transgene integration occurs early in embryonic development. We also achieved ∼70% efficiency in generating bacterial-artificial-chromosome-Tg mice. By combining this method with genome editing, we developed a strategy for tissue-specific-knockout phenotyping in the F0 generation. This platform expands experimental options for Tg animal production by supporting rapid F0-based phenotypic assessment and efficient founder generation for subsequent breeding.
Volume 29(7)
Pages 116648
Published 2026-7-17
DOI 10.1016/j.isci.2026.116648
PII S2589-0042(26)02024-9
PMID 42433665
PMC PMC13351448
Resource
Mice RBRC00213