PLoS Neglected Tropical Diseases (Jan 2012)

A systematically improved high quality genome and transcriptome of the human blood fluke Schistosoma mansoni.

  • Anna V Protasio,
  • Isheng J Tsai,
  • Anne Babbage,
  • Sarah Nichol,
  • Martin Hunt,
  • Martin A Aslett,
  • Nishadi De Silva,
  • Giles S Velarde,
  • Tim J C Anderson,
  • Richard C Clark,
  • Claire Davidson,
  • Gary P Dillon,
  • Nancy E Holroyd,
  • Philip T LoVerde,
  • Christine Lloyd,
  • Jacquelline McQuillan,
  • Guilherme Oliveira,
  • Thomas D Otto,
  • Sophia J Parker-Manuel,
  • Michael A Quail,
  • R Alan Wilson,
  • Adhemar Zerlotini,
  • David W Dunne,
  • Matthew Berriman

DOI
https://doi.org/10.1371/journal.pntd.0001455
Journal volume & issue
Vol. 6, no. 1
p. e1455

Abstract

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Schistosomiasis is one of the most prevalent parasitic diseases, affecting millions of people in developing countries. Amongst the human-infective species, Schistosoma mansoni is also the most commonly used in the laboratory and here we present the systematic improvement of its draft genome. We used Sanger capillary and deep-coverage Illumina sequencing from clonal worms to upgrade the highly fragmented draft 380 Mb genome to one with only 885 scaffolds and more than 81% of the bases organised into chromosomes. We have also used transcriptome sequencing (RNA-seq) from four time points in the parasite's life cycle to refine gene predictions and profile their expression. More than 45% of predicted genes have been extensively modified and the total number has been reduced from 11,807 to 10,852. Using the new version of the genome, we identified trans-splicing events occurring in at least 11% of genes and identified clear cases where it is used to resolve polycistronic transcripts. We have produced a high-resolution map of temporal changes in expression for 9,535 genes, covering an unprecedented dynamic range for this organism. All of these data have been consolidated into a searchable format within the GeneDB (www.genedb.org) and SchistoDB (www.schistodb.net) databases. With further transcriptional profiling and genome sequencing increasingly accessible, the upgraded genome will form a fundamental dataset to underpin further advances in schistosome research.