Abstract
CRISPR-Cas9 system can be used to generate knock-out cancer cell lines. An insertion or deletion induced by a single guide RNA (gRNA) is often used to generate knock-out cells, however, some cells express the target gene by skipping the disrupted exon, or by using a splicing variant, thus losing the target exon. To overcome this unexpected expression of the target gene, almost the entire gene can be swapped with a selection marker. However, it is time-consuming to create a targeting vector which contains 5′ and 3′ homology arms flanked by a selection marker. Here, we developed a simple and easy method called SUCCESS (Single-strand oligodeoxynucleotides, Universal Cassette, and CRISPR/Cas9 produce Easy Simple knock-out System), to knock-out a target gene without constructing a targeting vector. Our method removed the targeted large genomic region by using two pX330 plasmids encoding Cas9 and gRNA, two 80mer single strand oligodeoxynucleotides (ssODN), and a blunt-ended universal selection maker sequence in B16F10 murine cancer cell and ID8 murine ovarian cancer cell. SUCCESS generated knock-out clones in two murine cancer cell lines by homozygous deletion of the target genomic region, and without constructing targeting vectors. Thus, our method can be widely applied to generate homozygous knock-out cell lines, as well as knock-in cell lines.
Highlights
Gene knock-out (KO) is a critical method for identifying the functions of coding and non-coding genomic regions
A high antibiotic dose was crucial for efficient homozygotic knock-in (KI) of the selection marker. single strand oligodeoxynucleotides (ssODN) facilitated the expected ligation at the 3′ terminus of the selection marker but not at the 5′ terminus
SUCCESS is based on the CRISPR/Cas[9] system to introduce double-strand breaks in the target genomic regions
Summary
Gene knock-out (KO) is a critical method for identifying the functions of coding and non-coding genomic regions. Conventional strategy to make creating KO cells requires a targeting vector with a selection marker flanking the 5′ and 3′ homology arms; constructing targeting vectors is time-consuming. Another strategy was developed to insert exogenous DNA sequences into genomes using short single-strand oligodeoxynucleotides (ssODNs)[8]. We used a simple and easy method called SUCCESS (Single-strand oligodeoxynucleotides, Universal Cassette, and CRISPR/Cas[9] produce Easy Simple knock-out System) to delete a genomic region by using two plasmids coding Cas[9] and gRNA, two 80mer-ssODNs, and a blunt-end DNA coding selection marker in B16F10 murine melanoma cells with 77 chromosomes[9]. Our results confirmed that SUCCESS is a simple method to establish homozygously deleted full length genes from cell lines without a need for constructing a targeting vector
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