Lisa P. Freund scite author profile

Bacteria frequently exchange metabolites by diffusion through the extracellular environment, yet it remains generally unclear whether bacteria can also use cell-cell connections to directly exchange nutrients. Here we address this question by engineering cross-feeding interactions within and between Acinetobacter baylyi and Escherichia coli, in which two distant bacterial species reciprocally exchange essential amino acids. We establish that in a well-mixed environment E. coli, but likely not A. baylyi, can connect to other bacterial cells via membranederived nanotubes and use these to exchange cytoplasmic constituents. Intercellular connections are induced by auxotrophy-causing mutations and cease to establish when amino acids are externally supplied. Electron and fluorescence microscopy reveal a network of nanotubular structures that connects bacterial cells and enables an intercellular transfer of cytoplasmic materials. Together, our results demonstrate that bacteria can use nanotubes to exchange nutrients among connected cells and thus help to distribute metabolic functions within microbial communities.

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Superior creep strength of a nickel-based superalloy produced by selective laser melting

Pröbstle

Neumeier

Hopfenmüller

et al. 2016

Materials Science and Engineering: A

197

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Novel wrought γ/γ′ cobalt base superalloys with high strength and improved oxidation resistance

2015

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Double minimum creep in the rafting regime of a single-crystal Co-base superalloy

et al. 2018

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On the grain boundary strengthening effect of boron in γ/γ′ Cobalt-base superalloys

et al. 2018

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Lisa P. Freund

Metabolic cross-feeding via intercellular nanotubes among bacteria

Superior creep strength of a nickel-based superalloy produced by selective laser melting

Novel wrought γ/γ′ cobalt base superalloys with high strength and improved oxidation resistance

Double minimum creep in the rafting regime of a single-crystal Co-base superalloy

On the grain boundary strengthening effect of boron in γ/γ′ Cobalt-base superalloys

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