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Signaling metabolites spatially organize a multispecies mutualism in the soil microbiome

Created on 13 Jul 2026

Authors

Drewes, J. A., Warsop Thomas, F., Bethany, J., Higgins Keppler, E., Nelson, C., Kosina, S. M., Northen, T., Bean, H. D., Garcia-Pichel, F.

Abstract

A plant-independent avenue for N2-fixation takes place in desert topsoils through a "C-for-N" mutualism between heterodiazotrophs and the cyanobacterium Microcoleus vaginatus. These partners come together within a diverse soil microbiome under conditions of N-limitation for the phototroph and C limitation for the heterotrophs. We hypothesized that extracellular chemical signaling might enable partner selection and collocation, though infomolecules shaping inter-microbial architecture were unknown. We show that the complex chemical composition of M. vaginatus exometabolome depends on its N-limitation status, thus potentially offering information to mutualists. In chemotactic assays, the exometabolome effectively repelled most native soil bacteria, particularly intensely when under N-limitation. Bacterial assemblages circumventing the repulsion were enriched in species that are rare in the soil microbiome, and that functionally resemble mutualistic cyanospheres (showing high N2-fixation potential, secretion of urea, and copiotrophy), setting the stage for a working symbiosis. Further, we could reproduce the enrichment of copiotrophs and nitrogen-fixers using mixtures of N-acetylglutamic acid, N-acetylmethionine, indole-3-acetic acid, and 5'-methylthioadenosine, all preferentially released by M. vaginatus under N-limitation. These signaling molecules did not result in an enrichment of urea producers, however. The results demonstrate that trans-species communication through specific infochemicals, together with already known quorum-sensing-like intraspecific communication in M. vaginatus, act as a tool to organize microbiomes spatially and to attain mutualistic partner specificity in an open, crowded background.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 13 Jul 2026.

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