Pre-steady-state kinetic studies of redox reactions catalysed by Bacillus subtilis ferredoxin-NADP+ oxidoreductase with NADP+/NADPH and ferredoxin

Ferredoxin-NADP+ oxidoreductase ([EC1.18.1.2], FNR) from Bacillus subtilis (BsFNR) is a homodimeric flavoprotein sharing structural homology with bacterial NADPH-thioredoxin reductase. Pre-steady-state kinetics of the reactions of BsFNR with NADP+, NADPH, NADPD (deuterated form) and B. subtilis ferr...

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Published inBiochimica et biophysica acta Vol. 1857; no. 6; pp. 678 - 687
Main Authors Seo, Daisuke, Soeta, Takahiro, Sakurai, Hidehiro, Sétif, Pierre, Sakurai, Takeshi
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.06.2016
Elsevier
Subjects
absorption
Adrenodoxin
Bacillus
Bacillus subtilis
Bacillus subtilis - enzymology
Bacterial Proteins - metabolism
Biocatalysis
dissociation
energy metabolism
Ferredoxin
ferredoxin-NADP reductase
Ferredoxin-NADP Reductase - metabolism
Ferredoxins - metabolism
Flavodoxin
flavoproteins
Hydrogen-Ion Concentration
hydroquinone
Kinetics
Life Sciences
mixing
NADP (coenzyme)
NADP - metabolism
Oxidation-Reduction
Putidaredoxin
redox reactions
Spectrophotometry - methods
spectroscopy
Temperature
yumC
Ad
Adrenodoxin
FNR
NADPD
An
red
Ct
Pd
MC
Bacillus
Suffixes: ox
Fd
sq
TrxR
Tt
PSI
FAD
yumC
GR
Putidaredoxin
AdR
Bs
CTC
HEPES
dRf
Flavodoxin
Ferredoxin
Ec
Fld
PdR
Online AccessGet full text
ISSN0005-2728
0006-3002
1879-2650
DOI10.1016/j.bbabio.2016.03.005

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Abstract Ferredoxin-NADP+ oxidoreductase ([EC1.18.1.2], FNR) from Bacillus subtilis (BsFNR) is a homodimeric flavoprotein sharing structural homology with bacterial NADPH-thioredoxin reductase. Pre-steady-state kinetics of the reactions of BsFNR with NADP+, NADPH, NADPD (deuterated form) and B. subtilis ferredoxin (BsFd) using stopped-flow spectrophotometry were studied. Mixing BsFNR with NADP+ and NADPH yielded two types of charge-transfer (CT) complexes, oxidized FNR (FNRox)-NADPH and reduced FNR (FNRred)-NADP+, both having CT absorption bands centered at approximately 600nm. After mixing BsFNRox with about a 10-fold molar excess of NADPH (forward reaction), BsFNR was almost completely reduced at equilibrium. When BsFNRred was mixed with NADP+, the amount of BsFNRox increased with increasing NADP+ concentration, but BsFNRred remained as the major species at equilibrium even with about 50-fold molar excess NADP+. In both directions, the hydride-transfer was the rate-determining step, where the forward direction rate constant (~500s−1) was much higher than the reverse one (<10s−1). Mixing BsFdred with BsFNRox induced rapid formation of a neutral semiquinone form. This process was almost completed within 1ms. Subsequently the neutral semiquinone form was reduced to the hydroquinone form with an apparent rate constant of 50 to 70s−1 at 10°C, which increased as BsFdred increased from 40 to 120μM. The reduction rate of BsFNRox by BsFdred was markedly decreased by premixing BsFNRox with BsFdox, indicating that the dissociation of BsFdox from BsFNRsq is rate-limiting in the reaction. The characteristics of the BsFNR reactions with NADP+/NADPH were compared with those of other types of FNRs.
AbstractList Ferredoxin-NADP(+) oxidoreductase ([EC1.18.1.2], FNR) from Bacillus subtilis (BsFNR) is a homodimeric flavoprotein sharing structural homology with bacterial NADPH-thioredoxin reductase. Pre-steady-state kinetics of the reactions of BsFNR with NADP(+), NADPH, NADPD (deuterated form) and B. subtilis ferredoxin (BsFd) using stopped-flow spectrophotometry were studied. Mixing BsFNR with NADP(+) and NADPH yielded two types of charge-transfer (CT) complexes, oxidized FNR (FNR(ox))-NADPH and reduced FNR (FNR(red))-NADP(+), both having CT absorption bands centered at approximately 600n m. After mixing BsFNR(ox) with about a 10-fold molar excess of NADPH (forward reaction), BsFNR was almost completely reduced at equilibrium. When BsFNR(red) was mixed with NADP(+), the amount of BsFNR(ox) increased with increasing NADP(+) concentration, but BsFNR(red) remained as the major species at equilibrium even with about 50-fold molar excess NADP(+). In both directions, the hydride-transfer was the rate-determining step, where the forward direction rate constant (~500 s(-1)) was much higher than the reverse one (<10 s(-1)). Mixing BsFd(red) with BsFNR(ox) induced rapid formation of a neutral semiquinone form. This process was almost completed within 1 ms. Subsequently the neutral semiquinone form was reduced to the hydroquinone form with an apparent rate constant of 50 to 70 s(-1) at 10°C, which increased as BsFd(red) increased from 40 to 120 μM. The reduction rate of BsFNR(ox) by BsFd(red) was markedly decreased by premixing BsFNR(ox) with BsFd(ox), indicating that the dissociation of BsFd(ox) from BsFNR(sq) is rate-limiting in the reaction. The characteristics of the BsFNR reactions with NADP(+)/NADPH were compared with those of other types of FNRs.
Ferredoxin-NADP+ oxidoreductase ([EC1.18.1.2], FNR) from Bacillus subtilis (BsFNR) is a homodimeric flavoprotein sharing structural homology with bacterial NADPH-thioredoxin reductase. Pre-steady-state kinetics of the reactions of BsFNR with NADP+, NADPH, NADPD (deuterated form) and B. subtilis ferredoxin (BsFd) using stopped-flow spectrophotometry were studied. Mixing BsFNR with NADP+ and NADPH yielded two types of charge-transfer (CT) complexes, oxidized FNR (FNRox)-NADPH and reduced FNR (FNRred)-NADP+, both having CT absorption bands centered at approximately 600nm. After mixing BsFNRox with about a 10-fold molar excess of NADPH (forward reaction), BsFNR was almost completely reduced at equilibrium. When BsFNRred was mixed with NADP+, the amount of BsFNRox increased with increasing NADP+ concentration, but BsFNRred remained as the major species at equilibrium even with about 50-fold molar excess NADP+. In both directions, the hydride-transfer was the rate-determining step, where the forward direction rate constant (~500s−1) was much higher than the reverse one (<10s−1). Mixing BsFdred with BsFNRox induced rapid formation of a neutral semiquinone form. This process was almost completed within 1ms. Subsequently the neutral semiquinone form was reduced to the hydroquinone form with an apparent rate constant of 50 to 70s−1 at 10°C, which increased as BsFdred increased from 40 to 120μM. The reduction rate of BsFNRox by BsFdred was markedly decreased by premixing BsFNRox with BsFdox, indicating that the dissociation of BsFdox from BsFNRsq is rate-limiting in the reaction. The characteristics of the BsFNR reactions with NADP+/NADPH were compared with those of other types of FNRs.
Author Seo, Daisuke
Sakurai, Hidehiro
Soeta, Takahiro
Sakurai, Takeshi
Sétif, Pierre
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  givenname: Takahiro
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  givenname: Hidehiro
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Keywords Ad
Adrenodoxin
FNR
NADPD
An
red
Ct
Pd
MC
Bacillus
Suffixes: ox
Fd
sq
TrxR
Tt
PSI
FAD
yumC
GR
Putidaredoxin
AdR
Bs
CTC
HEPES
dRf
Flavodoxin
Ferredoxin
Ec
Fld
PdR
Language English
License This article is made available under the Elsevier license.
Copyright © 2016 Elsevier B.V. All rights reserved.
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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Snippet Ferredoxin-NADP+ oxidoreductase ([EC1.18.1.2], FNR) from Bacillus subtilis (BsFNR) is a homodimeric flavoprotein sharing structural homology with bacterial...
Ferredoxin-NADP(+) oxidoreductase ([EC1.18.1.2], FNR) from Bacillus subtilis (BsFNR) is a homodimeric flavoprotein sharing structural homology with bacterial...
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SubjectTerms absorption
Adrenodoxin
Bacillus
Bacillus subtilis
Bacillus subtilis - enzymology
Bacterial Proteins - metabolism
Biocatalysis
dissociation
energy metabolism
Ferredoxin
ferredoxin-NADP reductase
Ferredoxin-NADP Reductase - metabolism
Ferredoxins - metabolism
Flavodoxin
flavoproteins
Hydrogen-Ion Concentration
hydroquinone
Kinetics
Life Sciences
mixing
NADP (coenzyme)
NADP - metabolism
Oxidation-Reduction
Putidaredoxin
redox reactions
Spectrophotometry - methods
spectroscopy
Temperature
yumC
Title Pre-steady-state kinetic studies of redox reactions catalysed by Bacillus subtilis ferredoxin-NADP+ oxidoreductase with NADP+/NADPH and ferredoxin
URI https://dx.doi.org/10.1016/j.bbabio.2016.03.005
https://www.ncbi.nlm.nih.gov/pubmed/26965753
https://www.proquest.com/docview/1789498289
https://www.proquest.com/docview/2000528787
https://hal.science/hal-01457204
Volume 1857
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