BMC Veterinary Research (Oct 2020)

Composition of gut and oropharynx bacterial communities in Rattus norvegicus and Suncus murinus in China

  • Wen-qiao He,
  • Yi-quan Xiong,
  • Jing Ge,
  • Yan-xia Chen,
  • Xue-jiao Chen,
  • Xue-shan Zhong,
  • Ze-jin Ou,
  • Yu-han Gao,
  • Ming-ji Cheng,
  • Yun Mo,
  • Yu-qi Wen,
  • Min Qiu,
  • Shu-ting Huo,
  • Shao-wei Chen,
  • Xue-yan Zheng,
  • Huan He,
  • Yong-zhi Li,
  • Fang-fei You,
  • Min-yi Zhang,
  • Qing Chen

DOI
https://doi.org/10.1186/s12917-020-02619-6
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 11

Abstract

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Abstract Background Rattus norvegicus and Suncus murinus are important reservoirs of zoonotic bacterial diseases. An understanding of the composition of gut and oropharynx bacteria in these animals is important for monitoring and preventing such diseases. We therefore examined gut and oropharynx bacterial composition in these animals in China. Results Proteobacteria, Firmicutes and Bacteroidetes were the most abundant phyla in faecal and throat swab samples of both animals. However, the composition of the bacterial community differed significantly between sample types and animal species. Firmicutes exhibited the highest relative abundance in throat swab samples of R. norvegicus, followed by Proteobacteria and Bacteroidetes. In throat swab specimens of S. murinus, Proteobacteria was the predominant phylum, followed by Firmicutes and Bacteroidetes. Firmicutes showed the highest relative abundance in faecal specimens of R. norvegicus, followed by Bacteroidetes and Proteobacteria. Firmicutes and Proteobacteria had almost equal abundance in faecal specimens of S. murinus, with Bacteroidetes accounting for only 3.07%. The family Streptococcaceae was most common in throat swab samples of R. norvegicus, while Prevotellaceae was most common in its faecal samples. Pseudomonadaceae was the predominant family in throat swab samples of S. murinus, while Enterobacteriaceae was most common in faecal samples. We annotated 33.28% sequences from faecal samples of S. murinus as potential human pathogenic bacteria, approximately 3.06-fold those in R. norvegicus. Potential pathogenic bacteria annotated in throat swab samples of S. murinus were 1.35-fold those in R. norvegicus. Conclusions Bacterial composition of throat swabs and faecal samples from R. norvegicus differed from those of S. murinus. Both species carried various pathogenic bacteria, therefore both should be closely monitored in the future, especially for S. murinus.

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