Dimethyl sulfoxide reductase, anaerobic, subunit A; Catalyzes the reduction of dimethyl sulfoxide (DMSO) to dimethyl sulfide (DMS). DMSO reductase serves as the terminal reductase under anaerobic conditions, with DMSO being the terminal electron acceptor. Terminal reductase during anaerobic growth on various sulfoxides and N-oxide compounds. Allows E.coli to grow anaerobically on DMSO as respiratory oxidant.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

Dimethyl sulfoxide reductase, anaerobic, subunit A; Catalyzes the reduction of dimethyl sulfoxide (DMSO) to dimethyl sulfide (DMS). DMSO reductase serves as the terminal reductase under anaerobic conditions, with DMSO being the terminal electron acceptor. Terminal reductase during anaerobic growth on various sulfoxides and N-oxide compounds. Allows E.coli to grow anaerobically on DMSO as respiratory oxidant.

Putative selenate reductase, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds; Belongs to the prokaryotic molybdopterin-containing oxidoreductase family.

Dimethyl sulfoxide reductase, anaerobic, subunit A; Catalyzes the reduction of dimethyl sulfoxide (DMSO) to dimethyl sulfide (DMS). DMSO reductase serves as the terminal reductase under anaerobic conditions, with DMSO being the terminal electron acceptor. Terminal reductase during anaerobic growth on various sulfoxides and N-oxide compounds. Allows E.coli to grow anaerobically on DMSO as respiratory oxidant.

S- and N-oxide reductase, A subunit, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

Dimethyl sulfoxide reductase, anaerobic, subunit A; Catalyzes the reduction of dimethyl sulfoxide (DMSO) to dimethyl sulfide (DMS). DMSO reductase serves as the terminal reductase under anaerobic conditions, with DMSO being the terminal electron acceptor. Terminal reductase during anaerobic growth on various sulfoxides and N-oxide compounds. Allows E.coli to grow anaerobically on DMSO as respiratory oxidant.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

Response regulator in two-component regulatory system with TorS; Member of the two-component regulatory system TorS/TorR involved in the anaerobic utilization of trimethylamine-N-oxide (TMAO). Phosphorylated TorR activates the transcription of the torCAD operon by binding to four decameric boxes located in the torCAD promoter. Box1, 2 and 4 contain the DNA sequence 5'-CTGTTCATAT-3' and box3 contains the DNA sequence 5'-CCGTTCATCC-3'. Phosphorylated as well as unphosphorylated TorR negatively regulates its own expression by binding to box1 and 2.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

Hybrid sensory histidine kinase in two-component regulatory system with TorR; Member of the two-component regulatory system TorS/TorR involved in the anaerobic utilization of trimethylamine-N-oxide (TMAO). Detects the presence of TMAO in the medium and, in response, activates TorR via a four-step phosphorelay. When TMAO is removed, TorS can dephosphorylate TorR, probably by a reverse phosphorelay involving His- 860 and Asp-733.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

Putative selenate reductase, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds; Belongs to the prokaryotic molybdopterin-containing oxidoreductase family.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

S- and N-oxide reductase, A subunit, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds.

Response regulator in two-component regulatory system with TorS; Member of the two-component regulatory system TorS/TorR involved in the anaerobic utilization of trimethylamine-N-oxide (TMAO). Phosphorylated TorR activates the transcription of the torCAD operon by binding to four decameric boxes located in the torCAD promoter. Box1, 2 and 4 contain the DNA sequence 5'-CTGTTCATAT-3' and box3 contains the DNA sequence 5'-CCGTTCATCC-3'. Phosphorylated as well as unphosphorylated TorR negatively regulates its own expression by binding to box1 and 2.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

Response regulator in two-component regulatory system with TorS; Member of the two-component regulatory system TorS/TorR involved in the anaerobic utilization of trimethylamine-N-oxide (TMAO). Phosphorylated TorR activates the transcription of the torCAD operon by binding to four decameric boxes located in the torCAD promoter. Box1, 2 and 4 contain the DNA sequence 5'-CTGTTCATAT-3' and box3 contains the DNA sequence 5'-CCGTTCATCC-3'. Phosphorylated as well as unphosphorylated TorR negatively regulates its own expression by binding to box1 and 2.

Hybrid sensory histidine kinase in two-component regulatory system with TorR; Member of the two-component regulatory system TorS/TorR involved in the anaerobic utilization of trimethylamine-N-oxide (TMAO). Detects the presence of TMAO in the medium and, in response, activates TorR via a four-step phosphorelay. When TMAO is removed, TorS can dephosphorylate TorR, probably by a reverse phosphorelay involving His- 860 and Asp-733.

Hybrid sensory histidine kinase in two-component regulatory system with TorR; Member of the two-component regulatory system TorS/TorR involved in the anaerobic utilization of trimethylamine-N-oxide (TMAO). Detects the presence of TMAO in the medium and, in response, activates TorR via a four-step phosphorelay. When TMAO is removed, TorS can dephosphorylate TorR, probably by a reverse phosphorelay involving His- 860 and Asp-733.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

Hybrid sensory histidine kinase in two-component regulatory system with TorR; Member of the two-component regulatory system TorS/TorR involved in the anaerobic utilization of trimethylamine-N-oxide (TMAO). Detects the presence of TMAO in the medium and, in response, activates TorR via a four-step phosphorelay. When TMAO is removed, TorS can dephosphorylate TorR, probably by a reverse phosphorelay involving His- 860 and Asp-733.

Response regulator in two-component regulatory system with TorS; Member of the two-component regulatory system TorS/TorR involved in the anaerobic utilization of trimethylamine-N-oxide (TMAO). Phosphorylated TorR activates the transcription of the torCAD operon by binding to four decameric boxes located in the torCAD promoter. Box1, 2 and 4 contain the DNA sequence 5'-CTGTTCATAT-3' and box3 contains the DNA sequence 5'-CCGTTCATCC-3'. Phosphorylated as well as unphosphorylated TorR negatively regulates its own expression by binding to box1 and 2.

Putative selenate reductase, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds; Belongs to the prokaryotic molybdopterin-containing oxidoreductase family.

Dimethyl sulfoxide reductase, anaerobic, subunit A; Catalyzes the reduction of dimethyl sulfoxide (DMSO) to dimethyl sulfide (DMS). DMSO reductase serves as the terminal reductase under anaerobic conditions, with DMSO being the terminal electron acceptor. Terminal reductase during anaerobic growth on various sulfoxides and N-oxide compounds. Allows E.coli to grow anaerobically on DMSO as respiratory oxidant.

Putative selenate reductase, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds; Belongs to the prokaryotic molybdopterin-containing oxidoreductase family.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

Putative selenate reductase, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds; Belongs to the prokaryotic molybdopterin-containing oxidoreductase family.

S- and N-oxide reductase, A subunit, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds.

S- and N-oxide reductase, A subunit, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds.

Dimethyl sulfoxide reductase, anaerobic, subunit A; Catalyzes the reduction of dimethyl sulfoxide (DMSO) to dimethyl sulfide (DMS). DMSO reductase serves as the terminal reductase under anaerobic conditions, with DMSO being the terminal electron acceptor. Terminal reductase during anaerobic growth on various sulfoxides and N-oxide compounds. Allows E.coli to grow anaerobically on DMSO as respiratory oxidant.

S- and N-oxide reductase, A subunit, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds.

TorA-maturation chaperone; Involved in the biogenesis of TorA. Acts on TorA before the insertion of the molybdenum cofactor and, as a result, probably favors a conformation of the apoenzyme that is competent for acquiring the cofactor.

S- and N-oxide reductase, A subunit, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds.

Putative selenate reductase, periplasmic; Terminal reductase during anaerobic growth on various sulfoxide and N-oxide compounds; Belongs to the prokaryotic molybdopterin-containing oxidoreductase family.