Abstract
Phytophthora, a genus of oomycetes, contains many devastating plant pathogens, which cause substantial economic losses worldwide. Recently, CRISPR/Cas9-based genome editing tool was introduced into Phytophthora to delineate the functionality of individual genes. The available selection markers for Phytophthora transformation, however, are limited, which can restrain transgenic manipulation in some cases. We hypothesized that PcMuORP1, an endogenous fungicide resistance gene from P. capsici that confers resistance to the fungicide oxathiapiprolin via an altered target site in the ORP1 protein, could be used as an alternative marker. To test this hypothesis, the gene PcMuORP1 was introduced into the CRISPR/Cas9 system and complementation of a deleted gene in P. capsici was achieved using it as a selection marker. All of the oxathiapiprolin-resistant transformants were confirmed to contain the marker gene, indicating that the positive screening rate was 100%. The novel selection marker could also be used in other representative Phytophthora species including P. sojae and P. litchii, also with 100% positive screening rate. Furthermore, comparative studies indicated that use of PcMuORP1 resulted in a much higher efficiency of screening compared to the conventional selection marker NPT II, especially in P. capsici. Successive subculture and asexual reproduction in the absence of selective pressure were found to result in the loss of the selection marker from the transformants, which indicates that the PcMuORP1 gene would have little long term influence on the fitness of transformants and could be reused as the selection marker in subsequent projects. Thus, we have created an alternative selection marker for Phytophthora transformation by using a fungicide resistance gene, which would accelerate functional studies of genes in these species.
Highlights
The oomycetes are a class of eukaryotic microorganisms that have similar life cycles and growth habits to the filamentous fungi
We used KD1-1 as a rigorous model to test the potential of PcMuORP1 as a selection marker for clustered regularly interspaced short palindromic repeat (CRISPR)/Cas9mediated gene complementation in P. capsici
The current study was initiated to evaluate the potential of oxathiapiprolin, which targets the ORP1 protein, as a means of selection during Phytophthora transformation
Summary
The oomycetes are a class of eukaryotic microorganisms that have similar life cycles and growth habits to the filamentous fungi. To investigate the unique biology of Phytophthora, different classical and molecular genetic strategies have been adopted, with gene silencing via RNA interference (RNAi) being most commonly used in functional studies (van West et al, 1999; Dou et al, 2010; Liu et al, 2011; Wang et al, 2011; Lu et al, 2013; Tyler and Gijzen, 2014). Despite these successes, the RNAi strategy has several drawbacks when applied to Phytophthora species and some other organisms. In 2016, the CRISPR/Cas system was successfully applied in P. sojae (Fang and Tyler, 2016) for the first time, and subsequently in P. palmivora (Gumtow et al, 2018), indicating that this method might have broad application in the genus Phytophthora
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