Differential control of B radyrhizobium japonicum iron stimulon genes through variable affinity of the iron response regulator ( Irr ) for target gene promoters and selective loss of activator function

B radyrhizobium japonicum   Irr is a conditionally stable transcriptional activator and repressor that accumulates in cells under iron‐limited, manganese‐replete conditions, but degrades in a haem‐dependent manner under high iron conditions, manganese limitation or upon exposure to H 2 O 2 . Here, w...

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Published in:Molecular microbiology 2014-05, Vol.92 (3), p.609-624
Main Authors: Jaggavarapu, Siddharth, O'Brian, Mark R.
Format: Article
Language:English
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Summary:B radyrhizobium japonicum   Irr is a conditionally stable transcriptional activator and repressor that accumulates in cells under iron‐limited, manganese‐replete conditions, but degrades in a haem‐dependent manner under high iron conditions, manganese limitation or upon exposure to H 2 O 2 . Here, we identified Irr ‐regulated genes that were relatively unresponsive to factors that promote Irr degradation. The promoters of those genes bound Irr with at least 200‐fold greater affinity than promoters of the responsive genes, resulting in maintenance of promoter occupancy over a wide cellular Irr concentration range. For Irr ‐repressible genes, promoter occupancy correlated with transcriptional repression, resulting in differential levels of expression based on Irr affinity for target promoters. However, inactivation of positively controlled genes required neither promoter vacancy nor loss of DNA ‐binding activity by Irr . Thus, activation and repression functions of Irr may be uncoupled from each other under certain conditions. Abrogation of Irr activation function was haem‐dependent, thus haem has two functionally separable roles in modulating Irr activity. The findings imply a greater complexity of control by Irr than can be achieved by conditional stability alone. We suggest that these regulatory mechanisms accommodate the differing needs for Irr regulon genes in response to the prevailing metabolic state of the cell.
ISSN:0950-382X
1365-2958
DOI:10.1111/mmi.12584