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Scalable and comprehensive mosaic variant calling using DRAGEN.

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Detecting low variant allele fraction (VAF) mosaic variants is now feasible with the DRAGEN mosaic caller. This hardware-accelerated tool achieves hour-scale runtimes for accurate detection, enabling new insights into mosaic mutations.

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Area of Science:

  • Genomics
  • Computational Biology
  • Molecular Biology

Background:

  • Detecting low variant allele fraction (VAF) mosaic variants without controls is challenging due to technical noise and scalability issues.
  • Existing methods lack robust benchmarks and struggle with computational efficiency for low-VAF detection.

Purpose of the Study:

  • To develop a hardware-accelerated method for accurate and scalable detection of low-VAF mosaic variants.
  • To establish a genome-wide benchmark for evaluating low-VAF variant callers.
  • To investigate mosaic mutation patterns in human tissues and assess the origin of previously identified mosaic variants.

Main Methods:

  • Development of the DRAGEN mosaic caller, a hardware-accelerated tool for single nucleotide variant (SNV) and indel detection.
  • Creation of a genome-wide benchmark dataset for variants in the 1-10% VAF range.
  • Application of the caller to bulk sequencing data from blood, sperm, and brain tissues.
  • Utilizing personalized assembly pangenome references for improved alignment in complex genomic regions.

Main Results:

  • The DRAGEN mosaic caller identifies variants down to 1-2% VAF with low false-positive rates and hour-scale runtimes.
  • A new genome-wide benchmark for low-VAF variants (1-10%) was introduced.
  • Analysis of HG002 blood revealed that many previously identified mosaic variants in cell lines may be culture-derived.
  • Mosaic hotspots and mutational signatures were identified across different tissues.
  • Personalized pangenome references enhanced variant detection in complex genomic areas.

Conclusions:

  • The DRAGEN mosaic caller makes routine low-VAF mosaic variant discovery feasible.
  • This advancement opens new avenues for studying mosaic mutations in both healthy and diseased individuals.
  • The findings highlight the importance of distinguishing in vivo mutations from culture artifacts.