Ge, Zhan-Biao; Zhai, Zhi-Qiang; Xie, Wan-Ying; Dai, Jun; Huang, Ke; Johnson, David R; Zhao, Fang-Jie; Wang, Peng (2023). Two-tiered mutualism improves survival and competitiveness of cross-feeding soil bacteria. The ISME journal, 17(11), pp. 2090-2102. Nature Publishing Group 10.1038/s41396-023-01519-5
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Metabolic cross-feeding is a pervasive microbial interaction type that affects community stability and functioning and directs carbon and energy flows. The mechanisms that underlie these interactions and their association with metal/metalloid biogeochemistry, however, remain poorly understood. Here, we identified two soil bacteria, Bacillus sp. BP-3 and Delftia sp. DT-2, that engage in a two-tiered mutualism. Strain BP-3 has low utilization ability of pyruvic acid while strain DT-2 lacks hexokinase, lacks a phosphotransferase system, and is defective in glucose utilization. When strain BP-3 is grown in isolation with glucose, it releases pyruvic acid to the environment resulting in acidification and eventual self-killing. However, when strain BP-3 is grown together with strain DT-2, strain DT-2 utilizes the released pyruvic acid to meet its energy requirements, consequently rescuing strain BP-3 from pyruvic acid-induced growth inhibition. The two bacteria further enhance their collective competitiveness against other microbes by using arsenic as a weapon. Strain DT-2 reduces relatively non-toxic methylarsenate [MAs(V)] to highly toxic methylarsenite [MAs(III)], which kills or suppresses competitors, while strain BP-3 detoxifies MAs(III) by methylation to non-toxic dimethylarsenate [DMAs(V)]. These two arsenic transformations are enhanced when strains DT-2 and BP-3 are grown together. The two strains, along with their close relatives, widely co-occur in soils and their abundances increase with the soil arsenic concentration. Our results reveal that these bacterial types employ a two-tiered mutualism to ensure their collective metabolic activity and maintain their ecological competitive against other soil microbes. These findings shed light on the intricateness of bacterial interactions and their roles in ecosystem functioning.
Item Type: |
Journal Article (Original Article) |
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Division/Institute: |
08 Faculty of Science > Department of Biology > Institute of Ecology and Evolution (IEE) 08 Faculty of Science > Other Institutions > Teaching Staff, Faculty of Science |
UniBE Contributor: |
Johnson, David R. |
Subjects: |
500 Science > 570 Life sciences; biology 000 Computer science, knowledge & systems |
ISSN: |
1751-7362 |
Publisher: |
Nature Publishing Group |
Language: |
English |
Submitter: |
Pubmed Import |
Date Deposited: |
25 Sep 2023 11:15 |
Last Modified: |
18 Oct 2023 00:16 |
Publisher DOI: |
10.1038/s41396-023-01519-5 |
PubMed ID: |
37737252 |
BORIS DOI: |
10.48350/186530 |
URI: |
https://boris.unibe.ch/id/eprint/186530 |