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1.
Environ Microbiol ; 20(10): 3851-3861, 2018 10.
Article in English | MEDLINE | ID: mdl-30187633

ABSTRACT

In many Thermus thermophilus strains, nitrate respiration is encoded in mobile genetic regions, along with regulatory circuits that modulate its expression based on anoxia and nitrate presence. The oxygen-responsive system has been identified as the product of the dnrST (dnr) operon located immediately upstream of the nar operon (narCGHJIKT), which encodes the nitrate reductase (NR) and nitrate/nitrite transporters. In contrast, the nature of the nitrate sensory system is not known. Here, we analyse the putative nitrate-sensing role of the bicistronic drp operon (drpAB) present downstream of the nar operon in most denitrifying Thermus spp. Expression of drp was found to depend on the master regulator DnrT, whereas the absence of DrpA or DrpB increased the expression of both DnrS and DnrT and, concomitantly, of the NR. Absence of both proteins made expression from the dnr and nar operons independent of nitrate. Polyclonal antisera allowed us to identify DrpA as a periplasmic protein and DrpB as a membrane protein, with capacity to bind to the cytoplasmic membrane. Here, we propose a role for DrpA/DrpB as nitrate sensors during denitrification.


Subject(s)
Bacterial Proteins/metabolism , Nitrates/metabolism , Thermus thermophilus/metabolism , Anion Transport Proteins/genetics , Anion Transport Proteins/metabolism , Bacterial Proteins/genetics , Denitrification , Gene Expression Regulation, Bacterial , Nitrate Reductase/genetics , Nitrate Reductase/metabolism , Nitrate Reductases/genetics , Nitrate Reductases/metabolism , Nitrate Transporters , Nitrites/metabolism , Operon , Oxygen/metabolism , Periplasm/genetics , Periplasm/metabolism , Thermus thermophilus/chemistry , Thermus thermophilus/genetics
2.
Mol Microbiol ; 64(3): 630-46, 2007 May.
Article in English | MEDLINE | ID: mdl-17462013

ABSTRACT

The strains of Thermus thermophilus that contain the nitrate respiration conjugative element (NCE) replace their aerobic respiratory chain by an anaerobic counterpart made of the Nrc-NADH dehydrogenase and the Nar-nitrate reductase in response to nitrate and oxygen depletion. This replacement depends on DnrS and DnrT, two homologues to sensory transcription factors encoded in a bicistronic operon by the NCE. DnrS is an oxygen-sensitive protein required in vivo to activate transcription on its own dnr promoter and on that of the nar operon, but not required for the expression of the nrc operon. In contrast, DnrT is required for the transcription of these three operons and also for the repression of nqo, the operon that encodes the major respiratory NADH dehydrogenase expressed during aerobic growth. Thermophilic in vitro assays revealed that low DnrT concentrations allows the recruitment of the T. thermophilus RNA polymerase sigma(A) holoenzyme to the nrc promoter and its transcription, whereas higher DnrT concentrations are required to repress transcription on the nqo promoter. In conclusion, our data show a complex autoinducible mechanism by which DnrT functions as the transcriptional switch that allows the NCE to take the control of the respiratory metabolism of its host during adaptation to anaerobic growth.


Subject(s)
Bacterial Proteins/metabolism , Nitrates/metabolism , Oxygen Consumption/physiology , Thermus thermophilus/metabolism , Amino Acid Motifs , Anaerobiosis , Bacterial Proteins/genetics , Bacterial Proteins/physiology , Gene Expression Regulation, Bacterial , Molecular Sequence Data , NADH Dehydrogenase/metabolism , Nitrate Reductase/metabolism , Operon/genetics , Oxygen/pharmacology , Oxygen Consumption/genetics , Promoter Regions, Genetic/genetics , Thermus thermophilus/genetics , Thermus thermophilus/physiology , Transcription Factors/genetics , Transcription Factors/metabolism , Transcription, Genetic
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