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Horizontal plasmid transfer promotes the dissemination of Asian acute hepatopancreatic necrosis disease and provides a novel mechanism for genetic exchange and environmental adaptation
Fu, S.; Wei, D.; Yang, Q.; Xie, G.; Pang, B.; Wang, Y.; Lan, R.; Wang, Q.; Dong, X.; Zhang, X.; Huang, J.; Feng, J.; Liu, Y. (2020). Horizontal plasmid transfer promotes the dissemination of Asian acute hepatopancreatic necrosis disease and provides a novel mechanism for genetic exchange and environmental adaptation. mSystems 5(2): e00799-19. https://hdl.handle.net/10.1128/mSystems.00799-19
In: mSystems. American Society for Microbiology: Washington, DC. e-ISSN 2379-5077, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoord
    Vibrio parahaemolyticus (Fujino, Okuno, Nakada, Aoyama, Fukai, Mukai & Ueho, 1951) Sakazaki, Iwanami & Fukumi, 1963 [WoRMS]
Author keywords
    Vibrio parahaemolyticus; environmental adaptation; genetic exchange; insertion sequence; transmission mode

Auteurs  Top 
  • Fu, S.
  • Wei, D.
  • Yang, Q., meer
  • Xie, G.
  • Pang, B.
  • Wang, Y.
  • Lan, R.
  • Wang, Q.
  • Dong, X.
  • Zhang, X.
  • Huang, J.
  • Feng, J.
  • Liu, Y.

Abstract
    Vibrio parahaemolyticus is an important foodborne pathogen and has recently gained particular notoriety because it causes acute hepatopancreatic necrosis disease (AHPND) in shrimp, which has caused significant economic loss in the shrimp industry. Here, we report a whole-genome analysis of 233 V. parahaemolyticus strains isolated from humans, diseased shrimp, and environmental samples collected between 2008 and 2017, providing unprecedented insight into the historical spread of AHPND. The results show that V. parahaemolyticus is genetically diverse and can be divided into 84 sequence types (STs). However, genomic analysis of three STs of V. parahaemolyticus identified seven transmission routes in Asia since 1996, which promoted the transfer of an AHPND-associated plasmid. Notably, the insertion sequence (ISVal1) from the plasmid subsequently mediated the genetic exchange among V. parahaemolyticus STs and resulted in the deletion of an 11-kb region regulating cell mobility and the production of capsular polysaccharides. Phenotype assays confirmed that this deletion enhanced biofilm formation, providing a novel mechanism for environmental adaptation. We conclude that the transmission mode of AHPND consists of two steps, the transmission of V. parahaemolyticus and the subsequent horizontal transfer of the AHPND-associated plasmid. This plasmid allows ISVal1 to mediate genetic exchange and improve pathogen fitness in shrimp ponds. Current shrimp farming practices promoted such genetic exchanges, which highlighted a risk of the emergence of new virulent populations, with potentially devastating consequences for both aquaculture and human health. This study addressed the basic questions regarding the transmission mechanism of AHPND and provided novel insights into shrimp and human disease management.

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