4.6 Article

Misassembly of long reads undermines de novo-assembled ethnicity-specific genomes: validation in a Chinese Han population

Journal

HUMAN GENETICS
Volume 138, Issue 7, Pages 757-769

Publisher

SPRINGER
DOI: 10.1007/s00439-019-02032-6

Keywords

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Funding

  1. Ministry of Science and Technology of China 'National Key Research and Development Program' [2017YFA0505001/2018YFC0910201/2018YFC0910202]
  2. Distinguished Young Talent Award of National High-level Personnel Program of China

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An ethnicity is characterized by genomic fragments, single nucleotide polymorphisms (SNPs), and structural variations specific to it. However, the widely used standard human reference genome' GRCh37/38 is based on Caucasians. Therefore, de novo-assembled reference genomes for specific ethnicities would have advantages for genetics and precision medicine applications, especially with the long-read sequencing techniques that facilitate genome assembly. In this study, we assessed the de novo-assembled Chinese Han reference genome HX1 vis-a-vis the standard GRCh38 for improving the quality of assembly and for ethnicity-specific applications. Surprisingly, all genomic sequencing datasets mapped better to GRCh38 than to HX1, even for the datasets of the Chinese Han population. This gap was mainly due to the massive structural misassembly of the HX1 reference genome rather than the SNPs between the ethnicities, and this misassembly could not be corrected by short-read whole-genome sequencing (WGS). For example, HX1 and the other de novo-assembled personal genomes failed to assemble the mitochondrial genome as a contig. We mapped 97.1% of dbSNP, 98.8% of ClinVar, and 97.2% of COSMIC variants to HX1. HX1-absent, non-synonymous ClinVar SNPs were involved in 140 genes and many important functions in various diseases, most of which were due to the assembly failure of essential exons. In contrast, the HX1-specific regions were scantly expressible, as shown in the cell lines and clinical samples of Chinese patients. Our results demonstrated that the de novo-assembled individual genome such as HX1 did not have advantages against the standard GRCh38 genome due to insufficient assembly quality, and that it is, therefore, not recommended for common use.

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