Communications Biology (Oct 2024)

Single-cell somatic copy number variants in brain using different amplification methods and reference genomes

  • Ester Kalef-Ezra,
  • Zeliha Gozde Turan,
  • Diego Perez-Rodriguez,
  • Ida Bomann,
  • Sairam Behera,
  • Caoimhe Morley,
  • Sonja W. Scholz,
  • Zane Jaunmuktane,
  • Jonas Demeulemeester,
  • Fritz J. Sedlazeck,
  • Christos Proukakis

DOI
https://doi.org/10.1038/s42003-024-06940-w
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 10

Abstract

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Abstract The presence of somatic mutations, including copy number variants (CNVs), in the brain is well recognized. Comprehensive study requires single-cell whole genome amplification, with several methods available, prior to sequencing. Here we compare PicoPLEX with two recent adaptations of multiple displacement amplification (MDA): primary template-directed amplification (PTA) and droplet MDA, across 93 human brain cortical nuclei. We demonstrate different properties for each, with PTA providing the broadest amplification, PicoPLEX the most even, and distinct chimeric profiles. Furthermore, we perform CNV calling on two brains with multiple system atrophy and one control brain using different reference genomes. We find that 20.6% of brain cells have at least one Mb-scale CNV, with some supported by bulk sequencing or single-cells from other brain regions. Our study highlights the importance of selecting whole genome amplification method and reference genome for CNV calling, while supporting the existence of somatic CNVs in healthy and diseased human brain.