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CRISPR-Cas9-based repeat depletion for high-throughput genotyping of complex plant genomes. | LitMetric

AI Article Synopsis

  • * The custom-designed gRNAs for targeting repetitive elements led to a significant increase in the amount of usable sequencing data, allowing researchers to identify 10-fold more genotyped bases and 12-fold more genetic variants from single-copy regions.
  • * This method enhances genotyping accuracy and efficiency across various library types and genotypes, demonstrating versatility and effectiveness in improving genome-wide studies of species with large and repetitive genomes.

Article Abstract

High-throughput genotyping enables the large-scale analysis of genetic diversity in population genomics and genome-wide association studies that combine the genotypic and phenotypic characterization of large collections of accessions. Sequencing-based approaches for genotyping are progressively replacing traditional genotyping methods because of the lower ascertainment bias. However, genome-wide genotyping based on sequencing becomes expensive in species with large genomes and a high proportion of repetitive DNA. Here we describe the use of CRISPR-Cas9 technology to deplete repetitive elements in the 3.76-Gb genome of lentil (), 84% consisting of repeats, thus concentrating the sequencing data on coding and regulatory regions (single-copy regions). We designed a custom set of 566,766 gRNAs targeting 2.9 Gbp of repeats and excluding repetitive regions overlapping annotated genes and putative regulatory elements based on ATAC-seq data. The novel depletion method removed ∼40% of reads mapping to repeats, increasing those mapping to single-copy regions by ∼2.6-fold. When analyzing 25 million fragments, this repeat-to-single-copy shift in the sequencing data increased the number of genotyped bases of ∼10-fold compared to nondepleted libraries. In the same condition, we were also able to identify ∼12-fold more genetic variants in the single-copy regions and increased the genotyping accuracy by rescuing thousands of heterozygous variants that otherwise would be missed because of low coverage. The method performed similarly regardless of the multiplexing level, type of library or genotypes, including different cultivars and a closely related species (). Our results showed that CRISPR-Cas9-driven repeat depletion focuses sequencing data on single-copy regions, thus improving high-density and genome-wide genotyping in large and repetitive genomes.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10317117PMC
http://dx.doi.org/10.1101/gr.277628.122DOI Listing

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