Hydrodynamic characterization of the SufBC and SufCD complexes and their interaction with fluorescent adenosine nucleotides

Hydrodynamic characterization of the SufBC and SufCD complexes and their interaction with fluorescent adenosine nucleotides

Bacteria, as well as the plastid organelles of algae and higher plants, utilize proteins of the suf operon. These are involved in Fe‐S cluster assembly, particularly under conditions of iron limitation or oxidative stress. Genetic experiments in some organisms found that the ATPase SufC is essential...

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Veröffentlicht in:Protein science 2008-07, Vol.17 (7), p.1264-1274
Hauptverfasser: Petrovic, Arsen, Davis, Colin T., Rangachari, Kaveri, Clough, Barbara, Wilson, R.J.M. (Iain), Eccleston, John F.
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Sprache:eng
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Adenosine Diphosphate - chemistry
Adenosine Triphosphate - chemistry
ATPase
Bacterial Proteins - chemistry
Electrophoresis, Polyacrylamide Gel
Fluorescent Dyes
hydrodynamics
kinetic mechanism
Kinetics
Spectrometry, Fluorescence
Suf proteins
Thermotoga maritima
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container_end_page 1274
container_issue 7
container_start_page 1264
container_title Protein science
container_volume 17
creator Petrovic, Arsen
Davis, Colin T.
Rangachari, Kaveri
Clough, Barbara
Wilson, R.J.M. (Iain)
Eccleston, John F.
description Bacteria, as well as the plastid organelles of algae and higher plants, utilize proteins of the suf operon. These are involved in Fe‐S cluster assembly, particularly under conditions of iron limitation or oxidative stress. Genetic experiments in some organisms found that the ATPase SufC is essential, though its role in Fe‐S biogenesis remains unclear. To ascertain how interactions with other individual Suf proteins affect the activity of SufC we coexpressed it with either SufB or SufD from Thermotoga maritima and purified the resulting SufBC and SufCD complexes. Analytical ultracentrifuge and multiangle light‐scattering measurements showed that the SufBC complex exists in solution as the tetrameric SufB2C2 species, whereas SufCD exists as an equilibrium mixture of SufCD and SufC2D2. Transient kinetic studies of the complexes were made using fluorescent 2′(3′)‐O‐(N‐methylanthraniloyl‐(mant) analogues of ATP and ADP. Both SufBC and SufCD bound mantATP and mantADP much more tightly than does SufC alone. Compared to the cleavage step of the mantATPase of SufC alone, that of SufBC was accelerated 180‐fold and that of SufCD only fivefold. Given that SufB and SufD have 20% sequence identity and similar predicted secondary structures, the different hydrodynamic properties and kinetic mechanisms of the two complexes are discussed.
doi_str_mv 10.1110/ps.034652.108
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subjects Adenosine Diphosphate - chemistry
Adenosine Triphosphate - chemistry
ATPase
Bacterial Proteins - chemistry
Electrophoresis, Polyacrylamide Gel
Fluorescent Dyes
hydrodynamics
kinetic mechanism
Kinetics
Spectrometry, Fluorescence
Suf proteins
Thermotoga maritima
title Hydrodynamic characterization of the SufBC and SufCD complexes and their interaction with fluorescent adenosine nucleotides
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