Appidi et al. 2024 Phytobiomes

Unraveling bacterial adaptation strategies in the microbiome shaped by the chemical environment of the plant rhizosphere

Manasa R. Appidi, Amber N. Bible, Paul E. Abraham, Sara S. Jawdy, Robert L. Hettich, Jennifer L. Morrell-Falvey
September 5, 2024, Phytobiomes; DOI:10.1094/PBIOMES-08-24-0081-R

The rhizosphere is a dynamic environment where rhizodeposits that include primary and secondary metabolites and mucilage serve as nutrient sources for soil microorganisms, attracting them towards plant roots. However, understanding how these microbes specifically respond to plant root chemical signals has been hindered by the challenges of disentangling physical and chemical interactions between the microbes and plant roots. To address this, we implemented an innovative filter-based experimental setup on plant roots that creates a physical barrier while facilitating the exchange of chemical signals. The proteomic analysis of ten Populus root-associated bacterial strains grown in the presence or absence of a plant in either individual or mixed community conditions provided detailed insights into the functional responses of these strains to the root chemical environment. Additionally, this approach allowed us to discern the impact of root exudates on overall community dynamics. In particular, metaproteomic analyses revealed that each of these ten microbial members respond uniquely to the presence of the plant, with Bacillus and Pantoea exhibiting the most dramatic favorable impact. Proteomic examination revealed the details of metabolism fine-tuning, including processes such as chemotaxis and ABC transporter proteins. This study demonstrates the application of a filter-based experimental set up to study microbial responses to plant chemicals and sheds light on adaptation strategies employed by various bacterial strains for survival in the rhizosphere.

Citation

Appidi MR, Bible AN, Abraham PE, Jawdy SS, Hettich RL, Morrell-Falvey JL (2024). Unraveling Bacterial Adaptation Strategies in the Microbiome Shaped by the Chemical Environment of the Plant Rhizosphere. Phytobiomes 0 0:ja. DOI: 1094/PBIOMES-08-24-0081-R