4.6 Article

FnCas12a/crRNA-Mediated Genome Editing in Eimeria tenella

Journal

FRONTIERS IN GENETICS
Volume 12, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fgene.2021.738746

Keywords

Eimeria tenella; FnCas12a; genome editing; knock-in; EtHistone H4; EtActin

Funding

  1. National Natural Science Foundation of China [31871247, 32071443]
  2. Public-Interest Scientific Institution Basal Research Fund [Y2019PT10, 2019JB04, Y2020XK18]
  3. Chinese Academy of Agricultural Sciences [CAAS-Y2019YJ07-03]

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This study optimized the genome editing conditions for Eimeria tenella and successfully triggered DNA double-strand breaks using FnCas12a, inserting an enhanced yellow fluorescent protein and a selection marker to create an engineered E. tenella parasite expressing EYFP throughout its lifecycle, thereby enhancing the feasibility of gene function dissection and development of anticoccidial drugs and vaccines for Eimeria species.
Eimeria species are intracellular parasites residing inside the intestinal epithelial cell, which cause poultry coccidiosis and result in significant financial losses in the poultry industry. Genome editing of Eimeria is of immense importance for the development of vaccines and drugs. CRISPR/Cas9 has been utilized for manipulating the genome of Eimeria tenella (E. tenella). Ectopic expression of Cas9, i.e., via plasmids, would introduce transgene, which substantially limits its application, especially for vaccine development. In this study, we initially optimized the condition of the transfection protocol. We demonstrated that with the optimized condition, the transfection of FnCas12a (also known as FnCpf1) protein and crRNA targeting EtHistone H4 triggered DNA double-strand breaks in vivo. We then used this strategy to knock-in a coding cassette for an enhanced yellow fluorescent protein (EYFP) and dihydrofolate reductase-thymidylate synthase gene (DHFR) as a selection marker to tag endogenous EtActin. The engineered E. tenella parasite possesses EYFP expression in its entire life cycle. Our results demonstrated that FnCas12a could trigger genome editing in E. tenella, which augments the applicability of the dissection of gene function and the development of anticoccidial drugs and vaccines for Eimeria species.

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