CRISPR/Cas9 increases mitotic gene conversion in human cells.

Gene conversion is a process of transferring genetic material from one homologous sequence to another. Most reported gene conversions are meiotic although mitotic gene conversion is also described. When using CRISPR/Cas9 to target the human hemoglobin subunit beta (HBB) gene, hemoglobin subunit delta (HBD) gene footprints were observed in HBB gene. However, it is unclear whether these were the results of gene conversion or PCR-mediated sequence shuffling between highly homologous sequences. Here we provide evidence that the HBD footprints in HBB were indeed results of gene conversion. We demonstrated that the CRISPR/Cas9 facilitated unidirectional sequence transfer from the homologous gene without double-strand breaks (DSB) to the one with DSBs, and showed that the rates of HBD footprint in HBB were positively correlated to the HBB insertion and deletion rates. We further showed that when targeting HBD gene, HBB footprints could also be observed in HBD gene. The mitotic gene conversion was observed not only in immortalized HEK293T cells, but also in human primary cells. Our work reveals mitotic gene conversion as an often overlooked effect of CRISPR/Cas9-mediated genome editing.

Citation

Parisa Javidi-Parsijani, Pin Lyu, Vishruti Makani, Walaa Mohamed Sarhan, Kyung Whan Yoo, Lobna El-Korashi, Anthony Atala, Baisong Lu. CRISPR/Cas9 increases mitotic gene conversion in human cells. Gene therapy. 2020 Jun;27(6):281-296

Mesh Tags

PMID: 32020049

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