Publication: The Siderophore Phymabactin Facilitates the Growth of the Legume Symbiont Paraburkholderia phymatum in Aluminium-Rich Martian Soil
The Siderophore Phymabactin Facilitates the Growth of the Legume Symbiont Paraburkholderia phymatum in Aluminium-Rich Martian Soil
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Golaz, D., Bürgi, L., Egli, M., Bigler, L., & Pessi, G. (2025). The Siderophore Phymabactin Facilitates the Growth of the Legume Symbiont Paraburkholderia phymatum in Aluminium-Rich Martian Soil. Life, 15(7), 1044. https://doi.org/10.3390/life15071044
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Beneficial interactions between nitrogen-fixing soil bacteria and legumes offer a solution to increase crop yield on Earth and potentially in future Martian colonies. Paraburkholderia phymatum is a nitrogen-fixing beta-rhizobium, which enters symbiosis with more than 50 legumes and can survive in acidic or aluminium-rich soils. In a previous RNA-sequencing study, we showed that the beta-rhizobium P. phymatum grows well in simulated microgravity and identified phymabactin as the only siderophore produced by this strain. Here, the growt
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- Golaz, Daphné
- Bürgi, Luca
- Egli, Marcel
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Golaz, D., Bürgi, L., Egli, M., Bigler, L., & Pessi, G. (2025). The Siderophore Phymabactin Facilitates the Growth of the Legume Symbiont Paraburkholderia phymatum in Aluminium-Rich Martian Soil. Life, 15(7), 1044. https://doi.org/10.3390/life15071044
