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Literature DB >> 19001370

Bacterial ApbC protein has two biochemical activities that are required for in vivo function.

Jeffrey M Boyd¹, Jamie L Sondelski, Diana M Downs.

Abstract

The ApbC protein has been shown previously to bind and rapidly transfer iron-sulfur ([Fe-S]) clusters to an apoprotein (Boyd, J. M., Pierik, A. J., Netz, D. J., Lill, R., and Downs, D. M. (2008) Biochemistry 47, 8195-8202. This study utilized both in vivo and in vitro assays to examine the function of variant ApbC proteins. The in vivo assays assessed the ability of ApbC proteins to function in pathways with low and high demand for [Fe-S] cluster proteins. Variant ApbC proteins were purified and assayed for the ability to hydrolyze ATP, bind [Fe-S] cluster, and transfer [Fe-S] cluster. This study details the first kinetic analysis of ATP hydrolysis for a member of the ParA subfamily of "deviant" Walker A proteins. Moreover, this study details the first functional analysis of mutant variants of the ever expanding family of ApbC/Nbp35 [Fe-S] cluster biosynthetic proteins. The results herein show that ApbC protein needs ATPase activity and the ability to bind and rapidly transfer [Fe-S] clusters for in vivo function.

Entities: Chemical Gene

Mesh：

Substances：

Year: 2008 PMID： 19001370 PMCID： PMC2610507 DOI： 10.1074/jbc.M807003200

Source DB: PubMed Journal: J Biol Chem ISSN： 0021-9258 Impact factor: 5.157

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16 in total

1. FAD binding by ApbE protein from Salmonella enterica: a new class of FAD-binding proteins.

Authors: Jeffery M Boyd; James A Endrizzi; Trinity L Hamilton; Melissa R Christopherson; David W Mulder; Diana M Downs; John W Peters
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Authors: Jacob E Choby; Laura A Mike; Ameya A Mashruwala; Brendan F Dutter; Paul M Dunman; Gary A Sulikowski; Jeffrey M Boyd; Eric P Skaar
Journal: Cell Chem Biol Date: 2016-10-20 Impact factor: 8.116

Bacterial ApbC protein has two biochemical activities that are required for in vivo function.

1. Mutagenesis of a nucleotide-binding site of an anion-translocating ATPase.

2. The P1 plasmid-partition system synthesizes two essential proteins from an autoregulated operon.

3. A direct colorimetric assay for Ca2+ -stimulated ATPase activity.

Review 4. Thioredoxin.

5. Escherichia coli phage T4 topoisomerase.

6. Mutations in the Escherichia coli UvrB ATPase motif compromise excision repair capacity.

7. Mutational analysis of ThiH, a member of the radical S-adenosylmethionine (AdoMet) protein superfamily.

8. New Tn10 derivatives for transposon mutagenesis and for construction of lacZ operon fusions by transposition.

9. Mutant ras-encoded proteins with altered nucleotide binding exert dominant biological effects.

10. Directed mutations of the strongly conserved lysine 155 in the catalytic nucleotide-binding domain of beta-subunit of F1-ATPase from Escherichia coli.

1. FAD binding by ApbE protein from Salmonella enterica: a new class of FAD-binding proteins.

Review 2. How Is Fe-S Cluster Formation Regulated?

3. A Small-Molecule Inhibitor of Iron-Sulfur Cluster Assembly Uncovers a Link between Virulence Regulation and Metabolism in Staphylococcus aureus.

4. Global identification of genes affecting iron-sulfur cluster biogenesis and iron homeostasis.

5. Decreased transport restores growth of a Salmonella enterica apbC mutant on tricarballylate.

6. Bacillithiol has a role in Fe-S cluster biogenesis in Staphylococcus aureus.

7. Nfu facilitates the maturation of iron-sulfur proteins and participates in virulence in Staphylococcus aureus.

Review 8. Building Fe-S proteins: bacterial strategies.

9. Archaeal ApbC/Nbp35 homologs function as iron-sulfur cluster carrier proteins.

10. Chloroplast HCF101 is a scaffold protein for [4Fe-4S] cluster assembly.