Nature Communications (Apr 2024)

Hidden diversity and potential ecological function of phosphorus acquisition genes in widespread terrestrial bacteriophages

  • Jie-Liang Liang,
  • Shi-wei Feng,
  • Jing-li Lu,
  • Xiao-nan Wang,
  • Feng-lin Li,
  • Yu-qian Guo,
  • Shen-yan Liu,
  • Yuan-yue Zhuang,
  • Sheng-ji Zhong,
  • Jin Zheng,
  • Ping Wen,
  • Xinzhu Yi,
  • Pu Jia,
  • Bin Liao,
  • Wen-sheng Shu,
  • Jin-tian Li

DOI
https://doi.org/10.1038/s41467-024-47214-7
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 15

Abstract

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Abstract Phosphorus (P) limitation of ecosystem processes is widespread in terrestrial habitats. While a few auxiliary metabolic genes (AMGs) in bacteriophages from aquatic habitats are reported to have the potential to enhance P-acquisition ability of their hosts, little is known about the diversity and potential ecological function of P-acquisition genes encoded by terrestrial bacteriophages. Here, we analyze 333 soil metagenomes from five terrestrial habitat types across China and identify 75 viral operational taxonomic units (vOTUs) that encode 105 P-acquisition AMGs. These AMGs span 17 distinct functional genes involved in four primary processes of microbial P-acquisition. Among them, over 60% (11/17) have not been reported previously. We experimentally verify in-vitro enzymatic activities of two pyrophosphatases and one alkaline phosphatase encoded by P-acquisition vOTUs. Thirty-six percent of the 75 P-acquisition vOTUs are detectable in a published global topsoil metagenome dataset. Further analyses reveal that, under certain circumstances, the identified P-acquisition AMGs have a greater influence on soil P availability and are more dominant in soil metatranscriptomes than their corresponding bacterial genes. Overall, our results reinforce the necessity of incorporating viral contributions into biogeochemical P cycling.