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Literature DB >> 20857974

SufD and SufC ATPase activity are required for iron acquisition during in vivo Fe-S cluster formation on SufB.

Avneesh Saini¹, Daphne T Mapolelo, Harsimranjit K Chahal, Michael K Johnson, F Wayne Outten.

Abstract

In vivo biogenesis of Fe-S cluster cofactors requires complex biosynthetic machinery to limit release of iron and sulfide, to protect the Fe-S cluster from oxidation, and to target the Fe-S cluster to the correct apoenzyme. The SufABCDSE pathway for Fe-S cluster assembly in Escherichia coli accomplishes these tasks under iron starvation and oxidative stress conditions that disrupt Fe-S cluster metabolism. Although SufB, SufC, and SufD are all required for in vivo Suf function, their exact roles are unclear. Here we show that SufB, SufC, and SufD, coexpressed with the SufS-SufE sulfur transfer pair, purify as two distinct complexes (SufBC(2)D and SufB(2)C(2)) that contain Fe-S clusters and FADH(2). These studies also show that SufC and SufD are required for in vivo Fe-S cluster formation on SufB. Furthermore, while SufD is dispensable for in vivo sulfur transfer, it is absolutely required for in vivo iron acquisition. Finally, we demonstrate for the first time that the ATPase activity of SufC is necessary for in vivo iron acquisition during Fe-S cluster assembly.

Entities: CellLine Chemical Gene Mutation Species

Mesh：

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Year: 2010 PMID： 20857974 PMCID： PMC3004146 DOI： 10.1021/bi1011546

Source DB: PubMed Journal: Biochemistry ISSN： 0006-2960 Impact factor: 3.162

29 in total

1. SoxR-dependent response to oxidative stress and virulence of Erwinia chrysanthemi: the key role of SufC, an orphan ABC ATPase.

Authors: L Nachin; M El Hassouni; L Loiseau; D Expert; F Barras
Journal: Mol Microbiol Date: 2001-02 Impact factor: 3.501

2. Iron-sulfur (Fe-S) cluster assembly: the SufBCD complex is a new type of Fe-S scaffold with a flavin redox cofactor.

Authors: Silke Wollers; Gunhild Layer; Ricardo Garcia-Serres; Luca Signor; Martin Clemancey; Jean-Marc Latour; Marc Fontecave; Sandrine Ollagnier de Choudens
Journal: J Biol Chem Date: 2010-05-11 Impact factor: 5.157

3. Interchangeability and distinct properties of bacterial Fe-S cluster assembly systems: functional replacement of the isc and suf operons in Escherichia coli with the nifSU-like operon from Helicobacter pylori.

Authors: Umechiyo Tokumoto; Seiichi Kitamura; Keiichi Fukuyama; Yasuhiro Takahashi
Journal: J Biochem Date: 2004-08 Impact factor: 3.387

4. A suf operon requirement for Fe-S cluster assembly during iron starvation in Escherichia coli.

Authors: F Wayne Outten; Ouliana Djaman; Gisela Storz
Journal: Mol Microbiol Date: 2004-05 Impact factor: 3.501

5. Induction of the sufA operon encoding Fe-S assembly proteins by superoxide generators and hydrogen peroxide: involvement of OxyR, IHF and an unidentified oxidant-responsive factor.

Authors: Joon-Hee Lee; Won-Sik Yeo; Jung-Hye Roe
Journal: Mol Microbiol Date: 2004-03 Impact factor: 3.501

6. Colorimetric ferrozine-based assay for the quantitation of iron in cultured cells.

Authors: Jan Riemer; Hans Hermann Hoepken; Hania Czerwinska; Stephen R Robinson; Ralf Dringen
Journal: Anal Biochem Date: 2004-08-15 Impact factor: 3.365

7. Biogenesis of Fe-S cluster by the bacterial Suf system: SufS and SufE form a new type of cysteine desulfurase.

Authors: Laurent Loiseau; Sandrine Ollagnier-de-Choudens; Laurence Nachin; Marc Fontecave; Frédéric Barras
Journal: J Biol Chem Date: 2003-07-21 Impact factor: 5.157

8. The SufE protein and the SufBCD complex enhance SufS cysteine desulfurase activity as part of a sulfur transfer pathway for Fe-S cluster assembly in Escherichia coli.

Authors: F Wayne Outten; Matthew J Wood; F Michael Munoz; Gisela Storz
Journal: J Biol Chem Date: 2003-08-26 Impact factor: 5.157

9. SufC: an unorthodox cytoplasmic ABC/ATPase required for [Fe-S] biogenesis under oxidative stress.

Authors: Laurence Nachin; Laurent Loiseau; Dominique Expert; Frédéric Barras
Journal: EMBO J Date: 2003-02-03 Impact factor: 11.598

10. A third bacterial system for the assembly of iron-sulfur clusters with homologs in archaea and plastids.

Authors: Yasuhiro Takahashi; Umechiyo Tokumoto
Journal: J Biol Chem Date: 2002-06-27 Impact factor: 5.157

38 in total

Review 1. How Is Fe-S Cluster Formation Regulated?

Authors: Erin L Mettert; Patricia J Kiley
Journal: Annu Rev Microbiol Date: 2015 Impact factor: 15.500

Review 2. Synthesis, delivery and regulation of eukaryotic heme and Fe-S cluster cofactors.

Authors: Dulmini P Barupala; Stephen P Dzul; Pamela Jo Riggs-Gelasco; Timothy L Stemmler
Journal: Arch Biochem Biophys Date: 2016-01-16 Impact factor: 4.013

3. Coordinate regulation of the Suf and Isc Fe-S cluster biogenesis pathways by IscR is essential for viability of Escherichia coli.

Authors: Erin L Mettert; Patricia J Kiley
Journal: J Bacteriol Date: 2014-09-29 Impact factor: 3.490

4. Functional Dynamics Revealed by the Structure of the SufBCD Complex, a Novel ATP-binding Cassette (ABC) Protein That Serves as a Scaffold for Iron-Sulfur Cluster Biogenesis.

Authors: Kei Hirabayashi; Eiki Yuda; Naoyuki Tanaka; Sumie Katayama; Kenji Iwasaki; Takashi Matsumoto; Genji Kurisu; F Wayne Outten; Keiichi Fukuyama; Yasuhiro Takahashi; Kei Wada
Journal: J Biol Chem Date: 2015-10-15 Impact factor: 5.157