A new version of this entry is available:

Thumbnail Image
Article
2025

The RNF/NQR redox pumps: a versatile system for energy transduction in bacteria and archaea

Buckel, Wolfgang Ermler, Ulrich Vonck, Janet Fritz, Günter Steuber, Julia
  00253_2025_Article_13531.pdf  (1.55 MB)
  253_2025_13531_MOESM1_ESM.docx  (1.24 MB)

Abstract (English)

The Na + (or H + )-translocating ferredoxin:NAD + oxidoreductase (also called RNF, rhodobacter nitrogen fixation, complex) catalyzes the oxidation of reduced ferredoxin with NAD + , hereby generating an electrochemical gradient. In the reverse reaction driven by an electrochemical gradient, RNF provides reduced ferredoxin using NADH as electron donor. RNF plays a crucial role in the metabolism of many anaerobes, such as amino acid fermenters, acetogens, or aceticlastic methanogens. The Na + -translocating NADH:quinone oxidoreductase (NQR), which has evolved from an RNF, is found in selected bacterial groups including anaerobic, marine, or pathogenic organisms. Since NQR and RNF are not related to eukaryotic respiratory complex I (NADH:quinone oxidoreductase), members of this oxidoreductase family are promising targets for novel antibiotics. RNF and NQR share a membrane-bound core complex consisting of four subunits, which represent an essential functional module for redox-driven cation transport. Several recent 3D structures of RNF and NQR in different states put forward conformational coupling of electron transfer and Na + translocation reaction steps. Based on this common principle, putative reaction mechanisms of RNF and NQR redox pumps are compared. Key points: • Electrogenic ferredoxin:NAD + oxidoreductases (RNF complexes) are found in bacteria and archaea. • The Na + -translocating NADH:quinone oxidoreductase (NQR) is evolutionary related to RNF. • The mechanism of energy conversion by RNF/NQR complexes is based on conformational coupling of electron transfer and cation transport reactions.

File is subject to an embargo until

This is a correction to:

A correction to this entry is available:

This is a new version of:

Other version

Notes

Publication license


CC BY 4.0

Publication series

Published in

Applied microbiology and biotechnology, 109 (2025), 148. https://doi.org/10.1007/s00253-025-13531-0. ISSN: 1432-0614 Berlin/Heidelberg : Springer

Other version

Faculty

Institute

Examination date

Supervisor

Cite this publication

Buckel, W., Ermler, U., Vonck, J., Fritz, G., & Steuber, J. (2025). The RNF/NQR redox pumps: a versatile system for energy transduction in bacteria and archaea. Applied microbiology and biotechnology, 109. https://doi.org/10.1007/s00253-025-13531-0

Edition / version

Citation

Identification

https://doi.org/10.1007/s00253-025-13531-0
 https://hohpublica.uni-hohenheim.de/handle/123456789/18095

DOI

ISSN

ISBN

Language

English

Publisher

Publisher place

Classification (DDC)

570 Biology

Collections

Institut für Biologie
Publikationsfonds der Universität Hohenheim

Original object

University bibliography

Free keywords

Electron transport Respiration Electrochemical proton gradient Electrochemical sodium gradient RNF NQR

Standardized keywords (GND)

Sustainable Development Goals

BibTeX

@article{Buckel2025, doi = {10.1007/s00253-025-13531-0}, author = {Buckel, Wolfgang and Ermler, Ulrich and Vonck, Janet et al.}, title = {The RNF/NQR redox pumps: a versatile system for energy transduction in bacteria and archaea}, journal = {Applied Microbiology and Biotechnology}, year = {2025}, volume = {109}, }

Share this publication

Full item page