Abstract
The Chinese hamster ovary cell line CHO is widely used for biopharmaceutical production. Genome editing makes it possible to improve the growth properties of cells, their auxotrophy, and the functioning of the apoptosis and autophagy induction systems. Simultaneous editing of multiple genes makes it possible to obtain a cell line with the required genotype faster than several consecutive rounds of genomic knockout, but the probability of success is lower. Simultaneous editing of the dhfr, glul, bak1, and bax genes in the CHO S cells genome yielded 24 clones with signs of auxotrophy for thymidine and glutamine. Five ofthem turned out to be dhfr+/-, all five contained a knockout of one or two glul alleles. In one clone, 7 out of 8 target alleles were inactivated by a frameshift, and the second dhfr allele was partially inactivated by insertion of the GAA triplet, which reduced the enzyme activity 2.5 times. The probability of simultaneous knockout of both dhfr alleles increased to 50% when the genome was edited with a pair of guide RNAs directed to one exon of the dhfr gene.
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