Long-read sequence assembly: a technical evaluation in barley

Plant Cell. 2021 Jul 19;33(6):1888-1906. doi: 10.1093/plcell/koab077.

Abstract

Sequence assembly of large and repeat-rich plant genomes has been challenging, requiring substantial computational resources and often several complementary sequence assembly and genome mapping approaches. The recent development of fast and accurate long-read sequencing by circular consensus sequencing (CCS) on the PacBio platform may greatly increase the scope of plant pan-genome projects. Here, we compare current long-read sequencing platforms regarding their ability to rapidly generate contiguous sequence assemblies in pan-genome studies of barley (Hordeum vulgare). Most long-read assemblies are clearly superior to the current barley reference sequence based on short-reads. Assemblies derived from accurate long reads excel in most metrics, but the CCS approach was the most cost-effective strategy for assembling tens of barley genomes. A downsampling analysis indicated that 20-fold CCS coverage can yield very good sequence assemblies, while even five-fold CCS data may capture the complete sequence of most genes. We present an updated reference genome assembly for barley with near-complete representation of the repeat-rich intergenic space. Long-read assembly can underpin the construction of accurate and complete sequences of multiple genomes of a species to build pan-genome infrastructures in Triticeae crops and their wild relatives.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Computational Biology / methods
  • DNA, Intergenic
  • Genome, Plant
  • Genomics / methods*
  • High-Throughput Nucleotide Sequencing / methods*
  • Hordeum / genetics*
  • Molecular Sequence Annotation
  • Retroelements
  • Sequence Analysis, DNA
  • Terminal Repeat Sequences

Substances

  • DNA, Intergenic
  • Retroelements