From: Genome-scale identification and characterization of moonlighting proteins
Proteinname/uniprot ID/gene ID | First function | Additional functions | Category a) | Ref. |
---|---|---|---|---|
b0118/P36683/AcnB | Aconitate hydratase | Post-transcriptional regulation; mRNA binding | I | [27] |
b1019/P31545/EfeB | Peroxidase on guaiacol | Iron assimilation from heme; response to DNA damage stimulas | I | [43] |
b1276/P25516/AcnA | Aconitate hydratase | Post-transcriptional regulation; mRNA binding | I | [27] |
b1967/P31658/HchA | Molecular chaperone | Glyoxalase activity | I | [44] |
b3183/P42641/ObgE | GTPase | Role in ribosome biogenesis | I | |
b4151/P0A8Q3/FrdD | Membrane bound respiratory protein (anaerobic condition) | Role in bacterial flagellar switch (aerobic conditions) | I | [47] |
b4152/P0A8Q0/FrdC | Membrane bound respiratory protein (anaerobic condition) | Role in bacterial flagellar switch (aerobic conditions) | I | [47] |
b4153/P0AC47/FrdB | Membrane bound respiratory protein (anaerobic condition) | Role in bacterial flagellar switch (aerobic conditions) | I | [47] |
b4154/P00363/FrdA | Membrane bound respiratory protein (anaerobic condition) | Role in bacterial flagellar switch (aerobic conditions) | I | [47] |
b4179/P21499/Rnr | Helicase | RNase | I | [48] |
b4260/P68767/PepA†b) | Plasmid recombination | Peptide catabolic process; DNA binding/transcriptional control | I | [49] |
b0161/P0C0V0/DegP† | Chaperone | Proteolysis | II | [50] |
b0509/P77161/GlxR | Glyoxylate metabolism | Allantoin assimilation; DNA damage response | II | |
b0957/P0A910/OmpA | Transport | 1. Viral entry 2.DNA damage response | II | |
b1317/P77366/YcjU | Carbohydrate metabolism | 1. Cell-to-cell plasmid transfer 2. Reduce the lethal effects of stress | II | |
b1710/P06610/BtuE | Glutathione peroxidase | Non-essential role in vitamin-B12 transport | II | |
b2415/P0AA04/PtsH | Phosphocarrier protein essential in sugar transport | Positive regulation of glycogen catabolism | II | [58] |
b2552/P24232/Hmp | (aerobic condition) Nitric oxide dioxygenase (NOD) | (anaerobic condition) Amplifier of superoxide stress, NO and FAD reductase | II | |
b2949/P0A8I1/YqgF | Putative Holliday junction resolvase | Transcription anti-termination | II | |
b3414/P63020/NfuA | Fe-S biogenesis | Necessary for the use of extracellular DNA as the sole source of carbon and energy | II | [63] |
b3463/P0A9R7/FtsE | Cell division | Salt transport by ABC-Transporter | II | [64] |
b3706/P25522/MnmE | tRNA modification | Regulating glutamate-dependent acid resistance | II | [65] |
b0135/P31058/YadC | Cell adhesion | Reduce lethal effects of stress | III | [55] |
b0284/P77489/YagR | Putative xanthine dehydrogenase | DNA damage response | III | [51] |
b0543/P23895/EmrE | Multidrug transporter | DNA damage response | III | [51] |
b1018/P0AB24/EfeO | Involved in Iron uptake | Response to lethal antimicrobial and environmental stress | III | [55] |
b2037/P37746/RfbX | Putative O-antigen transporter | DNA damage response | III | [51] |
b2147/P25889/PreA | Pyrimidine base degradation | Required for swarming motility | III | [66] |
b2290/P0A959/AlaA | Involved in biosynthesis of alanine | Response to lethal antimicrobial and environmental stress | III | [55] |
b3191/P64602/MlaB | Phospholipid ABC transporter | Response to lethal antimicrobial and environmental stress | III | [55] |
b3233/P0A9Q9/Asd | Aspartate-semialdehyde dehydrogenase | DNA damage response | III | [51] |
b4177/P0A7D4/PurA | Adenylosuccinate synthetase | DNA damage response | III | [51] |
b4383/P0A6K6/DeoB | Phosphopentomutase | DNA damage response | III | [51] |