SummaryBrucella spp. are facultative intracellular bacteria pathogenic for many mammalian species including humans, causing a disease called brucellosis. Learning how Brucella adapts to its intracellular niche is crucial for understanding its pathogenesis mechanism, allowing for the development of new and more effective vaccines and treatments against brucellosis. Brucella pathogenesis resides mostly in its ability to adapt to the harsh environmental conditions encountered during host infection such as the oxygen depletion. The mechanism by which Brucella senses the oxygen tension and triggers its environmental adaptation is unknown. In this work we show that the Brucella abortus NtrY/NtrX two-component system is involved in oxygen sensing through a haem group contained in a Per-ARNT-SIM (PAS) domain of the NtrY histidine kinase. The NtrY haem iron can be reduced to the ferrous form and is rapidly oxidized to the ferric form in presence of oxygen. Importantly, we show that the oxidation state of the haem iron modulates the autokinase activity, being the anoxygenic reduced ferrous form the signalling state of NtrY. Also, we show that ntrY gene expression increases under low oxygen tension and that NtrY transfers its signal to its cognate response regulator NtrX, regulating in this way the expression of nitrogen respiration enzymes. Based on these findings, we postulate that NtrY acts as a redox sensor in Brucella spp.
Rhizobium leguminosarum
is a soil bacterium that infects root hairs and induces the formation of nitrogen-fixing nodules on leguminous plants. Light, oxygen, and voltage (LOV)-domain proteins are blue-light receptors found in higher plants and many algae, fungi, and bacteria. The genome of
R. leguminosarum
bv.
viciae
3841, a pea-nodulating endosymbiont, encodes a sensor histidine kinase containing a LOV domain at the N-terminal end (R-LOV-HK). R-LOV-HK has a typical LOV domain absorption spectrum with broad bands in the blue and UV-A regions and shows a truncated photocycle. Here we show that the R-LOV-HK protein regulates attachment to an abiotic surface and production of flagellar proteins and exopolysaccharide in response to light. Also, illumination of bacterial cultures before inoculation of pea roots increases the number of nodules per plant and the number of intranodular bacteroids. The effects of light on nodulation are dependent on a functional
lov
gene. The results presented in this work suggest that light, sensed by R-LOV-HK, is an important environmental factor that controls adaptive responses and the symbiotic efficiency of
R. leguminosarum
.
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