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Long-read sequence assembly: a technical evaluation in barley. | LitMetric

AI Article Synopsis

  • Recent advancements in long-read sequencing using circular consensus sequencing (CCS) on the PacBio platform are enhancing the assembly of large, repeat-rich plant genomes, particularly in barley (Hordeum vulgare).
  • Long-read assemblies outperform the current barley reference sequence derived from short-reads, with CCS emerging as the most cost-effective method for assembling multiple barley genomes.
  • An analysis shows that 20-fold CCS coverage provides excellent assemblies, while as little as five-fold can capture most gene sequences, leading to an updated reference genome that better represents the complex intergenic regions in barley.

Article 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.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8290290PMC
http://dx.doi.org/10.1093/plcell/koab077DOI Listing

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