Filiz Ferik scite author profile

SUMMARY Genome editing by RNA‐guided nucleases, such as SpCas9, has been used in numerous different plant species. However, to what extent multiple independent loci can be targeted simultaneously by multiplexing has not been well documented. Here, we developed a toolkit, based on a highly intron‐optimized zCas9i gene, which allows assembly of nuclease constructs expressing up to 32 single guide RNAs (sgRNAs). We used this toolkit to explore the limits of multiplexing in two major model species, and report on the isolation of transgene‐free octuple (8×) Nicotiana benthamiana and duodecuple (12×) Arabidopsis thaliana mutant lines in a single generation (T1 and T2, respectively). We developed novel counter‐selection markers for N. benthamiana, most importantly Sl‐FAST2, comparable to the well‐established Arabidopsis seed fluorescence marker, and FCY‐UPP, based on the production of toxic 5‐fluorouracil in the presence of a precursor. Targeting eight genes with an array of nine different sgRNAs and relying on FCY‐UPP for selection of non‐transgenic T1, we identified N. benthamiana mutant lines with astonishingly high efficiencies: All analyzed plants carried mutations in all genes (approximately 112/116 target sites edited). Furthermore, we targeted 12 genes by an array of 24 sgRNAs in A. thaliana. Efficiency was significantly lower in A. thaliana, and our results indicate Cas9 availability is the limiting factor in such higher‐order multiplexing applications. We identified a duodecuple mutant line by a combination of phenotypic screening and amplicon sequencing. The resources and results presented provide new perspectives for how multiplexing can be used to generate complex genotypes or to functionally interrogate groups of candidate genes.

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Disentangling cause and consequence: genetic dissection of the DANGEROUS MIX2 risk locus, and activation of the DM2h NLR in autoimmunity

Ordon

Martin

Erickson

et al. 2021

The Plant Journal

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Nucleotide-binding domain-leucine-rich repeat-type immune receptors (NLRs) protect plants against pathogenic microbes through intracellular detection of effector proteins. However, this comes at a cost, as NLRs can also induce detrimental autoimmunity in genetic interactions with foreign alleles. This may occur when independently evolved genomes are combined in inter-or intraspecific crosses, or when foreign alleles are introduced by mutagenesis or transgenesis. Most autoimmunity-inducing NLRs are encoded within highly variable NLR gene clusters with no known immune functions, which were termed autoimmune risk loci. Whether risk NLRs differ from sensor NLRs operating in natural pathogen resistance and how risk NLRs are activated in autoimmunity is unknown. Here, we analyzed the DANGEROUS MIX2 risk locus, a major autoimmunity hotspot in Arabidopsis thaliana. By gene editing and heterologous expression, we show that a single gene, DM2h, is necessary and sufficient for autoimmune induction in three independent cases of autoimmunity in accession Landsberg erecta. We focus on autoimmunity provoked by an EDS1-yellow fluorescent protein (YFP) NLS fusion protein to characterize DM2h functionally and determine features of EDS1-YFP NLS activating the immune receptor. Our data suggest that risk NLRs function in a manner reminiscent of sensor NLRs, while autoimmunity-inducing properties of EDS1-YFP NLS in this context are unrelated to the protein's functions as an immune regulator. We propose that autoimmunity, at least in some cases, may be caused by spurious, stochastic interactions of foreign alleles with coincidentally matching risk NLRs.

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Highly efficient multiplex editing: One-shot generation of 8xNicotiana benthamianaand 12x Arabidopsis mutants

Stuttmann

Barthel

Martin

et al. 2020

Preprint

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SummaryGenome editing by RNA-guided nucleases in model species is still hampered by low efficiencies, and isolation of transgene-free individuals often requires tedious PCR screening. Here, we present a toolkit that mitigates these drawbacks for Nicotiana benthamiana and Arabidopsis thaliana. The toolkit is based on an intron-optimized SpCas9-coding gene (zCas9i), which conveys dramatically enhanced editing efficiencies. The zCas9i gene is combined with remaining components of the genome editing system in recipient vectors, which lack only the user-defined guide RNA transcriptional units. Up to 32 guide RNA transcriptional units can be introduced to these recipients by a simple and PCR-free cloning strategy, with the choice of three different RNA polymerase III promoters for guide RNA expression. We developed new markers to aid transgene counter-selection in N. benthamiana, and demonstrate their efficacy for isolation of several genome-edited N. benthamiana lines. In Arabidopsis, we explore the limits of multiplexing by simultaneously targeting 12 genes by 24 sgRNAs. Perhaps surprisingly, the limiting factor in such higher order multiplexing applications is Cas9 availability, rather than recombination or silencing of repetitive sgRNA TU arrays. Through a combination of phenotypic screening and pooled amplicon sequencing, we identify transgene-free duodecuple mutant Arabidopsis plants directly in the T2 generation. This demonstrates high efficiency of the zCas9i gene, and reveals new perspectives for multiplexing to target gene families and to generate higher order mutants.

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Population structure and linkage disequilibrium in a large collection of Fusarium oxysporum strains analysed through iPBS markers

Ateş

Altınok

Ozkuru

et al. 2019

Journal of Phytopathology

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In the current study, 160 pathogenic strains of Fusarium oxysporum collected from tomato, eggplant and pepper were studied. Eighteen inter‐primer binding site (iPBS)‐retrotransposon primers were used, and these primers generated 205 scorable polymorphic bands. The number of polymorphic bands per primer varied between 9 and 19, with a mean of 11 bands per primer. The highest polymorphism information content (PIC) value was determined as 0.27, and the lowest was 0.05. The unweighted pair‐group method with arithmetic averages (UPGMA) dendrogram including a heat map revealed that the 160 pathogenic strains of F. oxysporum were divided into two main clusters. The first cluster mainly included F. oxysporum f. sp. capsici (FOC) and F. oxysporum f. sp. melongenae (FOMG) isolates. The second cluster mainly comprised F. oxysporum f. sp. lycopersici (FOL) and F. oxysporum f. sp. radicis lycopersici (FORL) isolates. The highest percentage of loci in significant linkage disequilibrium (LD) was detected for FOL, whereas the lowest level of LD was found for FOC, and 95.2%, 99.4%, 99.1% and 97.4% of the relative kinship estimates were less than 0.4 for FOL, FOMG, FORL and FOC, respectively. LD differences were detected among formae speciales, and LD was higher in FOL as compare to FOC species. The findings of this study confirm that iPBS‐retrotransposon markers are highly polymorphic at the intraspecific level in Fusarium spp.

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Filiz Ferik

Highly efficient multiplex editing: one‐shot generation of 8× Nicotiana benthamiana and 12× Arabidopsis mutants

Disentangling cause and consequence: genetic dissection of the DANGEROUS MIX2 risk locus, and activation of the DM2h NLR in autoimmunity

Highly efficient multiplex editing: One-shot generation of 8xNicotiana benthamianaand 12x Arabidopsis mutants

Population structure and linkage disequilibrium in a large collection of Fusarium oxysporum strains analysed through iPBS markers

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