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KMID : 1094720150200050825
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Biotechnology and Bioprocess Engineering
2015 Volume.20 No. 5 p.825 ~ p.833
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Efficient CRISPR/Cas9-mediated multiplex genome editing in CHO cells via high-level sgRNA-Cas9 complex
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Shin Jong-Oh
Lee Nam-Il
Song Yo-Seb
Park Jin-Hyung
Kang Taek-Jin
Kim Sun-Chang
Lee Gyun-Min
Cho Byung-Kwan
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Abstract
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Increasing demand for recombinant therapeutic proteins has warranted the need for an efficient host cell to produce high-quality proteins, with a high yield. Chinese hamster ovary (CHO) cells appear to meet this demand, and their genetic tailoring will facilitate improvements in their productivity for recombinant proteins. Recent advances in programmable RNA-guided Cas9 nuclease (RGN) have facilitated CHO cell engineering via site-specific genome editing. One critical determinant for increasing genomeediting efficiency is attaining a balanced expression level of Cas9 nuclease and guide RNAs in the nucleus. Here, we achieved high-level expression of Cas9 nuclease and single guide RNA (sgRNA), enhancing expression levels approximately three-fold over the conventional methodology by using an iterative transfection approach. We demonstrated that high abundance of sgRNA and Cas9 nuclease induced a two-fold increase in the site-specific mutation rate on average for both single and multiple genetic targets. Sequencing results confirmed frame-shift mutations at targeted genomic loci created by error-prone NHEJassociated mutations. Moreover, we controlled the amount of sgRNA-Cas9 complex formation in vitro and delivered the complex directly to cells, resulting in the maximization of mutation frequency by the high-level of sgRNA-Cas9 complex. Importantly, mutation rates of putative off-target sites remained minimal in spite of the improved genome-editing efficiency. These results provide an efficient strategy for editing the CHO genome with the reduction of the time-consuming screening efforts aimed at isolating clones with desirable properties.
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KEYWORD
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genome editing, CRISPR/Cas9, Chinese hamster ovary (CHO) cells, iterative transfection
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