Login / Signup

Phages enhance both phytopathogen density control and rhizosphere microbiome suppressiveness.

Xiaofang WangShuo WangMingcong HuangYilin HeSaisai GuoKeming YangNingqi WangTianyu SunHongwu YangTianjie YangYangchun XuQirong ShenVille-Perti FrimanZhong Wei
Published in: mBio (2024)
, leading to a significant reduction in bacterial wilt disease. Furthermore, we found that repeated phage application increased the diversity of rhizosphere microbiota and specifically enriched Actinobacterial taxa that showed synergistic pathogen suppression when combined with phages due to resource and interference competition. Together, our study unravels an undiscovered benefit of phages, where phages trigger a second line of defense by the pathogen-suppressing bacteria present in resident microbial communities. Phage therapies could, hence, potentially be tailored according to host microbiota composition to unlock the pre-existing benefits provided by resident microbiota.
Keyphrases
  • microbial community
  • pseudomonas aeruginosa
  • patient safety
  • quality improvement
  • candida albicans
  • signaling pathway
  • cancer therapy