During their lifecycle, bacteria are exposed to continuous changes in their environment, some of which are stressful and can be harmful. The cell envelope is the first line of defense against a hostile environment, but it is also the first target for damage. To deal with this problem, bacteria have evolved systems collectively called "envelope stress response," or ESR, dedicated to the detection and repair of damaged components. Here we decided to investigate whether the atypical two-component system ZraP-SR is a novel ESR. Based on the screening of more than 240 drugs using the Biolog technology, we show that the deletion of zraP or zraR confers increased susceptibility to five classes of antibiotics and to some environmental stress targeting the envelope. Using a microscopy approach, we also establish that ZraP and ZraR are required to maintain envelope integrity. So far, the ZraR regulator was only known to activate the transcription of zraP and zraSR. Using chromatin immunoprecipitation followed by sequencing and RT-qPCR, we have now identified 25 additional genes regulated by ZraR, the majority of which are involved in the response against stress. Taken together, our results demonstrate that ZraP-SR is a novel ESR.
Keywords: ChIP-seq; antibiotic; zinc.
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