3.D.6.1.5
Na+-translocating ferredoxin:NAD+ reductase (RnfABCDEG) complex. The 6 subunits have 191, 274, 435, 310, 201 and 189 aas, respectively (Vitt et al. 2022). Microbial metabolism often uses H+/Na+-translocating ferredoxin:NAD+ reductase (Rnf), either to exergonically oxidize reduced ferredoxin by NAD+ for generating a transmembrane electrochemical potential, or reversely to exploit the latter for producing reduced ferredoxin. The electron transfer route between ferredoxin and NAD via eight [4Fe-4S] clusters, one Fe ion and four flavins crossing the cell membrane twice related to the pathway of NADH:ubiquinone reductase. Redox-coupled Na+ translocation is provided by orchestrating Na+ uptake/release, electrostatic effects of the assumed membrane-integrated FMN semiquinone anion and accompanied polypeptide rearrangements mediated by different redox steps (Vitt et al. 2022).
|
| Accession Number: | 7ZC6_C |
|---|
| Protein Name: | C Chain C, RnfC |
|---|
| Length: | 436 |
|---|
| Molecular Weight: | |
|---|
| Species: | Clostridium tetanomorphum [1553] |
|---|
| Substrate |
electron |
|---|
1: MELLTFKNGV HPPHGKHYTE NKPIEEYLPK GDIVIPMSQH IGAPAEPIVK KGDRVLVGQK
61: IGEAKGFVSA NIHASVSGTV KNVAPVTLFN GVKSTAVIIE NDGQYEEIET EKRDYTKLSN
121: EEIINIIKEA GIVGMGGATF PTHVKLAPPP DKNIDSIVVN AAECEPYLTC DHRMMLEKTN
181: EIVEGLKIVL KLFPKATGYI GIEDNKMNAI KAMQEAVKNI ANIEVKAVKT KYPQGAEKQL
241: IYAITKREVP SGGLPADAGC IVQNVDTIYE IYNAVVNGKP LTSRVVTVTG DAIKEPKNLR
301: FKIGTSVREL VEAAGGFAEE PLKVISGGPM MGMAMYSLDV PSTKGTSGVL CLTKKVAEIE
361: EESNCINCGK CVQVCPMNLM PTKLATASAV SNLDMFNEFS GRDCIECGCC SFVCPARRHL
421: LQRIRSGKKA VSKKK