Cell Reports (Apr 2022)

A chromosome-level genome of the human blood fluke Schistosoma japonicum identifies the genomic basis of host-switching

  • Fang Luo,
  • Wenbin Yang,
  • Mingbo Yin,
  • Xiaojin Mo,
  • Yuhong Pang,
  • Chengsong Sun,
  • Bingkuan Zhu,
  • Wei Zhang,
  • Cun Yi,
  • Zhidan Li,
  • Jipeng Wang,
  • Bin Xu,
  • Zheng Feng,
  • Yangyi Huang,
  • Yan Lu,
  • Wei Hu

Journal volume & issue
Vol. 39, no. 1
p. 110638

Abstract

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Summary: The evolution and adaptation of S. japonicum, a zoonotic parasite that causes human schistosomiasis, remain unclear because of the lack of whole-genome data. We construct a chromosome-level S. japonicum genome and analyze it together with 72 samples representing six populations of the entire endemic region. We observe a Taiwan zoophilic lineage splitting from zoonotic populations ∼45,000 years ago, consistent with the divergent history of their intermediate hosts. Interestingly, we detect a severe population bottleneck in S. japonicum, largely coinciding with human history in Asia during the last glacial maximum. We identify several genomic regions underlying natural selection, including GATAD2A and Lmln, both showing remarkable differentiation among different areas. RNAi knockdown suggests association of GATAD2A with parasite development and infection in definitive hosts, while Lmln relates to the specificity of the intermediate hosts. Our study provides insights into the evolution of S. japonicum and serves as a resource for further studies.

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