Feedback regulation of iron-sulfur cluster biogenesis

Stephanie M. Stuteley
Jiahua Chen
Jin Wang
Stephanie Dawes
Edward N. Baker
Christopher J. Squire
Maria-Eirini Pandelia
Ghader Bashiri

Read the full article

Discuss this preprint

Start a discussion What are Sciety discussions?

Listed in

This article is not in any list yet, why not save it to one of your lists.

Abstract

Iron-sulfur (Fe-S) clusters are ubiquitous cofactors in biological systems. Given their central role in bacterial metabolism and pathogenesis, the biogenesis of Fe-S clusters is tightly controlled. We reveal a feedback regulatory mechanism involving the sulfide producing SufS/SufU complex within the sulfur utilization (SUF) system of Mycobacterium tuberculosis , the bacterium that causes tuberculosis. In this mechanism, [2Fe-2S] clusters compete with zinc ions for binding to the sulfide transfer protein SufU. Cluster binding induces SufU tetramerization, which prevents its interaction with the cysteine desulfurase SufS, thereby inhibiting SufS activation and limiting sulfide supply for Fe-S cluster biogenesis. These findings uncover an unrecognized regulatory mechanism in M. tuberculosis , ensuring strict control of Fe-S cluster production.

Version published to 10.1101/2025.06.15.659787 on bioRxiv
Jun 20, 2025

Azotobacter vinelandii glutaredoxin D delivers the core [Fe ₂ S ₂ ] cluster to nitrogenase cofactor scaffold protein NifU

This article has 9 authors:
1. Juan Andrés Collantes-García
2. Elena Rosa-Núñez
3. Alejandro M Armas
4. Daniel Raimunda
5. Ana Pérez-González
6. Yisong Guo
7. Carlos Echávarri-Erasun
8. Luis M. Rubio
9. Manuel González-Guerrero
This article has no evaluationsLatest version Oct 21, 2025
Multiheme selenoenzyme essential for elemental sulfur respiration

This article has 10 authors:
1. Hisaaki Mihara
2. Takuya Yoshizawa
3. Yukiko Izu
4. Wanjiao Zhang
5. Masao Inoue
6. Nana Shimamoto
7. Ryuta Tobe
8. Riku Aono
9. Tatsuo Kurihara
10. Hiroyoshi Matsumura
This article has no evaluationsLatest version Nov 19, 2025
IscR-mediated sensing of iron-sulfur cluster demand coordinates virulence gene expression in Yersinia pseudotuberculosis

This article has 12 authors:
1. Mané Ohanyan
2. George Imre Balazs
3. Karthik Hullahalli
4. Diana Fernandez Pacheco
5. Caia Lomeli
6. Katherine G. Dailey
7. Erin Mettert
8. Diana Hooker-Romero
9. Leah Schwiesow
10. Patricia J. Kiley
11. Matthew K. Waldor
12. Victoria Auerbuch
This article has no evaluationsLatest version Oct 17, 2025

Feedback regulation of iron-sulfur cluster biogenesis

Discuss this preprint

Listed in

Abstract

Article activity feed

Azotobacter vinelandii glutaredoxin D delivers the core [Fe ₂ S ₂ ] cluster to nitrogenase cofactor scaffold protein NifU

Multiheme selenoenzyme essential for elemental sulfur respiration

IscR-mediated sensing of iron-sulfur cluster demand coordinates virulence gene expression in Yersinia pseudotuberculosis

Discuss this preprint

Listed in

Abstract

Article activity feed

Related articles

Azotobacter vinelandii glutaredoxin D delivers the core [Fe 2 S 2 ] cluster to nitrogenase cofactor scaffold protein NifU

Multiheme selenoenzyme essential for elemental sulfur respiration

IscR-mediated sensing of iron-sulfur cluster demand coordinates virulence gene expression in Yersinia pseudotuberculosis

Azotobacter vinelandii glutaredoxin D delivers the core [Fe ₂ S ₂ ] cluster to nitrogenase cofactor scaffold protein NifU