Extended hopanoid loss reduces bacterial motility and surface attachment, and leads to heterogeneity in root nodule growth kinetics in a Bradyrhizobium-Aeschynomene symbiosis

Abstract

Hopanoids are steroid-like bacterial lipids that enhance membrane rigidity and promote bacterial growth under diverse stresses. Roughly 10% of bacteria contain genes involved in hopanoid biosynthesis, and these genes are particularly conserved in plant-associated organisms. We previously found that the extended class of hopanoids (C35) in the nitrogen-fixing soil bacterium Bradyrhizobium diazoefficiens promotes its root nodule symbiosis with the tropical legume Aeschynomene afraspera. By quantitatively modeling root nodule development, we identify independent consequences of extended hopanoid loss in the initiation of root nodule formation and in the rate of root nodule maturation. In vitro studies demonstrate that extended hopanoids support B. diazoefficiens motility and surface attachment, which may correlate with stable root colonization in planta. Confocal microscopy of maturing root nodules reveals that root nodules infected with extended hopanoid-deficient B. diazoefficiens contain unusually low densities of bacterial symbionts, indicating that extended hopanoids are necessary for persistent, high levels of host infection.

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