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Chlamydomonas POLQ is necessary for CRISPR/Cas9-mediated gene targeting
by
Sizova, Irina
, Verbenko, Valeriy
, Hegemann, Peter
, Kateriya, Suneel
, Kelterborn, Simon
in
CRISPR
/ DNA repair
/ Genome editing
2021
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Chlamydomonas POLQ is necessary for CRISPR/Cas9-mediated gene targeting
by
Sizova, Irina
, Verbenko, Valeriy
, Hegemann, Peter
, Kateriya, Suneel
, Kelterborn, Simon
in
CRISPR
/ DNA repair
/ Genome editing
2021
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Chlamydomonas POLQ is necessary for CRISPR/Cas9-mediated gene targeting
Journal Article
Chlamydomonas POLQ is necessary for CRISPR/Cas9-mediated gene targeting
2021
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Overview
The use of CRISPR/Cas endonucleases has revolutionized gene editing techniques for research on Chlamydomonas reinhardtii. To better utilize the CRISPR/Cas system, it is essential to develop a more comprehensive understanding of the DNA repair pathways involved in genome editing. In this study, we have analyzed contributions from canonical KU80/KU70-dependent nonhomologous end-joining (cNHEJ) and DNA polymerase theta (POLQ)-mediated end joining on SpCas9-mediated untemplated mutagenesis and homology-directed repair (HDR)/gene inactivation in Chlamydomonas. Using CRISPR/SpCas9 technology, we generated DNA repair-defective mutants ku80, ku70, polQ for gene targeting experiments. Our results show that untemplated repair of SpCas9-induced double strand breaks results in mutation spectra consistent with an involvement of both KU80/KU70 and POLQ. In addition, the inactivation of POLQ was found to negatively affect HDR of the inactivated paromomycin-resistant mut-aphVIII gene when donor single-stranded oligos were used. Nevertheless, mut-aphVIII was still repaired by homologous recombination in these mutants. POLQ inactivation suppressed random integration of transgenes co-transformed with the donor ssDNA. KU80 deficiency did not affect these events but instead was surprisingly found to stimulate HDR/gene inactivation. Our data suggest that in Chlamydomonas, POLQ is the main contributor to CRISPR/Cas-induced HDR and random integration of transgenes, whereas KU80/KU70 potentially plays a secondary role. We expect our results will lead to improvement of genome editing in C. reinhardtii and can be used for future development of algal biotechnology.
Publisher
Oxford University Press
Subject
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