Abstract
BackgroundDNA-free, clustered regularly interspaced short palindromic repeats (CRISPR)-associated protein (Cas) ribonucleoprotein (RNP)-based genome editing is a simple, convincing, and promising tool for precision crop breeding. The efficacy of designed CRISPR-based genome editing tools is a critical prerequisite for successful precision gene editing in crops.ResultsThis study demonstrates that soil-grown leaf- or callus-derived pepper protoplasts are a useful system for screening of efficient guide RNAs for CRISPR/Cas9 or CRISPR/Cas12a (Cpf1). CRISPR/Cas9 or Cpf1 were delivered as CRISPR/RNP complexes of purified endonucleases mixed with the designed single guide RNA, which can edit the target gene, CaMLO2 in two pepper cultivars with whole genome sequenced, Capsicum annuum ‘CM334’ and C. annuum ‘Dempsey’. The designed guide RNAs (sgRNAs for Cas9 or crRNAs for Cpf1) are conserved for CaMLO2 in both CM334 and Dempsey and cleave CaMLO2 in vitro. CRISPR/Cas9- or /Cpf1-RNP complexes were transfected into purely isolated protoplasts of the hot pepper CM334 and sweet pepper Dempsey by PEG-mediated delivery. Targeted deep sequencing analysis indicated that the targeted CaMLO2 gene was differentially edited in both cultivars, depending on the applied CRISPR/RNPs.ConclusionsPepper protoplast-based CRISPR guide-RNA selection is a robust method to check the efficacy of designed CRISPR tools and is a prerequisite for regenerating edited plants, which is a critical time-limiting procedure. The rapid and convincing selection of guide RNA against a target genome reduces the laborious efforts for tissue culture and facilitates effective gene editing for pepper improvement.
Highlights
DNA-free, clustered regularly interspaced short palindromic repeats (CRISPR)-associated protein (Cas) ribonucleoprotein (RNP)-based genome editing is a simple, convincing, and promising tool for precision crop breeding
Polyethylene glycol (PEG)-mediated CRISPR-RNP delivery in pepper protoplasts To assess whether CRISPR-RNPs can be delivered to protoplasts of CM334 and Dempsey, we isolated protoplasts from the two pepper cultivars grown in soil (Fig. 1a and b)
In vitro validation of the designed CRISPR RNPs for Cas9 and LbCpf1 The genomic region of the CaMLO2 gene in both CM334 and Dempsey was firstly analyzed by Sanger sequencing to confirm the conserved exon sequences
Summary
DNA-free, clustered regularly interspaced short palindromic repeats (CRISPR)-associated protein (Cas) ribonucleoprotein (RNP)-based genome editing is a simple, convincing, and promising tool for precision crop breeding. Clustered regularly interspaced short palindromic repeats (CRISPR)-CRISPR-associated protein (Cas), CRISPR/Cas has emerged as the first RNA-guided genome-editing tool to introduce a target mutation in any sequenced genome after being reported as a programmable molecular scissor in 2012 [1]. Both LbCpf and AsCpf tools showed successful editing activity in human cells by expression plasmids [15] or Cpf1-ribonucleoprotein (RNP) [17]. The editing effect of both LbCpf and AsCpf was successfully validated in soybean and tobacco via Cpf1-RNP [18]. Plant-specific properties lowered the editing efficiency of mature crRNA-harboring plasmids in rice [19] as well as in soybean and tobacco [18]
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