EC Number |
Title |
Organism |
---|
1.7.2.3 | Efficient respiration on TMAO requires TorD and TorE auxiliary proteins in Shewanella oneidensis |
Shewanella oneidensis |
1.7.2.3 | High hydrostatic pressure inducible trimethylamine n-oxide reductase improves the pressure tolerance of piezosensitive bacteria Vibrio fluvialis |
Vibrio fluvialis |
1.7.2.3 | High hydrostatic pressure inducible trimethylamine n-oxide reductase improves the pressure tolerance of piezosensitive bacteria Vibrio fluvialis |
Vibrio fluvialis QY27 |
1.7.2.3 | High hydrostatic pressure inducible trimethylamine n-oxide reductase improves the pressure tolerance of piezosensitive bacteria Vibrio fluvialis |
Vibrio fluvialis ATCC33809 |
1.7.2.3 | Modulating the molybdenum coordination sphere of Escherichia coli trimethylamine N-oxide reductase |
Escherichia coli |
1.7.2.3 | TMAO reductase, a biomarker for gut permeability defect induced inflammation, in mouse model of chronic kidney disease and dextran sulfate solution-induced mucositis |
uncultured bacterium |
1.7.2.3 | Aerobic TMAO respiration in Escherichia coli |
Escherichia coli |
1.7.2.3 | An unsuspected autoregulatory pathway involving apocytochrome TorC and sensor TorS in Escherichia coli |
Escherichia coli |
1.7.2.3 | Anaerobic induction of trimethylamine N-oxide reductase and cytochromes by dimethyl sulfoxide in Escherichia coli |
Escherichia coli |
1.7.2.3 | Chaperones involved in assembly and export of N-oxide reductases |
Escherichia coli |