Sakai_2015_Sci.Rep_5_16780

Reference

Title : The power of single molecule real-time sequencing technology in the de novo assembly of a eukaryotic genome - Sakai_2015_Sci.Rep_5_16780
Author(s) : Sakai H , Naito K , Ogiso-Tanaka E , Takahashi Y , Iseki K , Muto C , Satou K , Teruya K , Shiroma A , Shimoji M , Hirano T , Itoh T , Kaga A , Tomooka N
Ref : Sci Rep , 5 :16780 , 2015
Abstract :

Second-generation sequencers (SGS) have been game-changing, achieving cost-effective whole genome sequencing in many non-model organisms. However, a large portion of the genomes still remains unassembled. We reconstructed azuki bean (Vigna angularis) genome using single molecule real-time (SMRT) sequencing technology and achieved the best contiguity and coverage among currently assembled legume crops. The SMRT-based assembly produced 100 times longer contigs with 100 times smaller amount of gaps compared to the SGS-based assemblies. A detailed comparison between the assemblies revealed that the SMRT-based assembly enabled a more comprehensive gene annotation than the SGS-based assemblies where thousands of genes were missing or fragmented. A chromosome-scale assembly was generated based on the high-density genetic map, covering 86% of the azuki bean genome. We demonstrated that SMRT technology, though still needed support of SGS data, achieved a near-complete assembly of a eukaryotic genome.

PubMedSearch : Sakai_2015_Sci.Rep_5_16780
PubMedID: 26616024
Gene_locus related to this paper: phaan-a0a0s3rce3 , phaan-a0a0s3tc53 , vigrr-a0a1s3v914 , phaan-a0a0s3s998 , phaan-a0a0s3siv8 , phaan-a0a0l9uys5 , phaan-a0a0s3rp07 , phaan-a0a0s3rbq0 , phaan-a0a0s3smk7 , phaan-a0a0s3slm9 , phaan-a0a0l9uc60 , phaan-a0a0l9ucr8

Citations formats

Sakai H, Naito K, Ogiso-Tanaka E, Takahashi Y, Iseki K, Muto C, Satou K, Teruya K, Shiroma A, Shimoji M, Hirano T, Itoh T, Kaga A, Tomooka N (2015)
The power of single molecule real-time sequencing technology in the de novo assembly of a eukaryotic genome
Sci Rep 5 :16780

Sakai H, Naito K, Ogiso-Tanaka E, Takahashi Y, Iseki K, Muto C, Satou K, Teruya K, Shiroma A, Shimoji M, Hirano T, Itoh T, Kaga A, Tomooka N (2015)
Sci Rep 5 :16780