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Animal Models - GEG Tech top picks
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BigField GEG Tech's insight:
The authors developed an improved-PITT (i-PITT) method by combining Cre-loxP, PhiC31-attP/B and FLP-FRT systems. They demonstrated that injection of up to three different cassettes in a single injection session allows to obtain multiple transgenic mice with a very high efficency (up to 62%). 
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Humanized mouse models have become increasingly important and widely used in modeling human diseases in biomedical research. Immunodeficient mice such as NOD-Rag1-/-IL2RgammaC-null (NRG) or NOD-SCID-IL2RgammaC-null (NSG) mice are critical for efficient engraftment of human cells or tissues. However, their genetic modification remains challenging due to a lack of embryonic stem cells and difficulty in the collection of timed embryos after superovulation. Here, we report the generation of gene knockout NRG mice by combining in vitro fertilization (IVF) and CRISPR/Cas9 technology. Sufficient numbers of fertilized embryos were produced through IVF, and a high rate of Fah gene targeting was achieved with microinjection of Cas9 mRNA, gRNA and single strand oligonucleotide DNA (ssDNA) into the embryos. The technology paves the way to construct NRG or NSG mutant mice to facilitate new humanized mouse models. The technology can also be readily adapted to introduce mutations in other species such as swine and non-human primates.
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In this study, the scientists show that haploid embryonic stem cells (AG-haESCs) carrying deletions in the DMRs (differentially DNA methylated regions) controlling two paternally repressed imprinted genes, H19 and Gtl2, can efficiently support the generation of semi-cloned (SC) pups. Genetic manipulation of these DKO-AG-haESCs in vitro using CRISPR-Cas9 can produce SC mice carrying multiple modifications with high efficiency. DKO-AG-haESCs are therefore an effective tool for the introduction of organism-wide mutations in mice in a single generation.
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The human brain expanded dramatically in size during evolution, imparting us with unique capabilities. Scientists have now shown that it's possible to pick out key changes in the genetic code between chimpanzees and humans and visualize their respective contributions to early brain development in mouse embryos. The findings may lend insight what makes the human brain special and why people get some neurological disorders, such as autism and Alzheimer's disease, whereas chimpanzees don't.
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Recently, the use of a simple and inexpensive transgenic approach which is a hydrodynamics-based transfection (HT) method coupled with the Sleeping Beauty transposase system has been developed. In this review, the applicability of HT models in liver cancer research is expected to broaden and ultimately elucidate the cooperation between oncogenic signaling pathways and aid in designing molecular therapy to target altered pathways.
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