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acetate
competitive inhibition
Cl-
-
1 M concentration 75% inhibition
Fe(NO3)2
-
1 mM concentration 98% inhibition; Fe(NO3)2 + EDTA 1 mM concentration 96% inhibition
Fe3+
-
10 mM concentration 35% inhibition
ferrous acetate
-
94% inhibition at 0.01 mM concentration; ferrous acetate + EDTA 96% inhibition at 0.01 mM concentration
glyoxylate
the competitive inhibitor diminishes enzyme velocity at low concentrations of substrate but the velocity reaches uninhibited maximal levels at high concentrations of substrate
H2O2
-
hydrogen peroxide is both a reversible noncompetitive inhibitor of the OxOx catalyzed oxidation of oxalate and an irreversible inactivator. The build-up of the turnover-generated hydrogen peroxide product leads to the inactivation of the enzyme. The introduction of catalase to reaction mixtures protects the enzyme from inactivation allowing reactions to proceed to completion. No changes in global protein structure take place in the presence of hydrogen peroxide
H3PO4
-
76.9% residual activity at 0.1 mM
HgCl2
-
0.1 mM 36% inhibition
hydroxylamine
-
0.1 mM concentration 100% inhibition
iodacetamide
-
0.1 mM concentration 62% inhibition
K+
-
94% residual activity at 1 mM
KBr
-
1 mM concentration 58% inhibition
KCl
-
14% inhibition at 1 mM concentration
KCN
-
41% activity retained at 5 mM concentration
KI
-
1 mM concentration 94% inhibition
lignosulfonate
-
at a lignosulfonate concentration of 50 mg/ml and a pH of 3.8, 2-16% of the activity of oxalate oxidase remain
-
malate
the competitive inhibitor diminishes enzyme velocity at low concentrations of substrate but the velocity reaches uninhibited maximal levels at high concentrations of substrate
malonate
the competitive inhibitor diminishes enzyme velocity at low concentrations of substrate but the velocity reaches uninhibited maximal levels at high concentrations of substrate
Na2SO4
-
48.4% residual activity at 0.1 mM
NEM
-
92% residual activity at 1 mM
o-phenanthroline
-
0.1 mM concentration 26% inhibition
oxalate
-
substrate inhibition
Pb2+
-
2 mM concentration 57% inhibition, 20 mM concentration 89% inhibition
SDS
-
isoforms OxO1-4, are very sensitive to 0.1% SDS with a nearly total loss of their enzyme activities
Semicarbazide
-
0.1 mM concentration 57% inhibition
Sodium azide
-
86% residual activity at 1 mM
Sodium molybdate
-
71% residual activity at 1 mM
Sodium nitrate
-
45% residual activity at 1 mM
sodium thiocyanate
-
72% residual activity at 1 mM
SrCl2
Sorghum sp.
-
slight inhibition at 0.5 mM concentration
succinate
competitive inhibition
2-mercaptoethanol
-
100% inhibition at 0.01 mM concentration
2-mercaptoethanol
Sorghum sp.
-
0.5 mM concentration 40% inhibition
8-hydroxyquinoline
-
0.1 mM concentration 41% inhibition
8-hydroxyquinoline
Sorghum sp.
-
0.5 mM concentration 56% activity retained
alpha,alpha'-dipyridyl
-
0.1 mM concentration 31% inhibition
alpha,alpha'-dipyridyl
Sorghum sp.
-
0.5 mM concentration 26% inhibition
arsenite
-
concentration higher than 5 mM
arsenite
Sorghum sp.
-
5 mM concentration 12% inhibition
ascorbate
-
wild type and immobilized 88% and 81% inhibition respectively
ascorbate
-
ascorbate causes 80% inhibition in the activity of immobilized enzyme
azide
-
-
azide
-
0.1 mM concentration 10% inhibition
azide
Sorghum sp.
-
0.5 mM concentration 57% inhibition
azide
Sorghum sp.
-
5 mM concentration 80% inhibition
Ca2+
-
92% residual activity at 1 mM
Ca2+
-
34% decreased activity at 10 mM Ca2+
Cu2+
-
mM concentration
Cu2+
-
Cu2+ + EDTA 0.5 mM concentration 90% activity retained
CuSO4
-
-
CuSO4
-
0.1 mM concentration 36% inhibition
cyanide
-
50 mM concentration
cyanide
-
50% activity at 16 mM concentration
diethyldithiocarbamate
-
-
diethyldithiocarbamate
-
0.5 mM concentration 60% activity retained
diethyldithiocarbamate
-
strong inhibitor, 30.7% residual activity at 0.1 mM
diethyldithiocarbamate
Sorghum sp.
-
0.5 mM concentration 64% activity retained
Dithionite
-
-
Dithionite
Sorghum sp.
-
0.5 mM concentration 42% inhibition
Dithionite
Sorghum sp.
-
5 mM concentration 77% inhibition
EDTA
-
0.5 mM concentration 65% activity retained
EDTA
-
0.1 mM concentration 42% inhibition
EDTA
-
strong inhibitor, 61.5% residual activity at 0.1 mM
EDTA
Sorghum sp.
-
0.5 mM concentration 64% activity retained
fluoride
-
sub mM concentration
fluoride
-
0.5 mM concentration
fluoride
Sorghum sp.
-
at 0.5 mM concentration 76% activity retained
fluoride
-
50% activity at 0.24 mM concentration
glutathione
-
slight inhibition, wild type and immobilized
glycolate
-
mM concentration
glycolate
the competitive inhibitor diminishes enzyme velocity at low concentrations of substrate but the velocity reaches uninhibited maximal levels at high concentrations of substrate
Iodide
-
sub mM concentration
Iodide
Sorghum sp.
-
0.5 mM concentration 14% inhibition
iodoacetate
-
0.5 mM concentration
iodoacetate
Sorghum sp.
-
5 mM concentration 47% inhibition
L-cysteine
-
slight inhibition
L-cysteine
-
wild type and immobilized slight inhibition
L-cysteine
Sorghum sp.
-
0.5 mM concentration 60% inhibition
N-ethylmaleimide
-
25% activity retained at 0.2 mM concentration
N-ethylmaleimide
Sorghum sp.
-
5 mM concentration 89% inhibition
N-ethylmaleimide
-
43% activity retained
NaCl
-
10% inhibition at 1 mM concentration
NaCl
-
10 mM concentration
NaCl
-
14% inhibition at mM concentration
NaCl
-
at 1 mM concentration 43% activity retained by free protein, 85% activity retained by immobilized protein
nitrate
-
mM concentration
nitrate
-
mM concentration
nitrite
-
1 mM concentration 10% inhibition
nitrite
-
sub mM concentration
pyruvate
-
1 mM concentration 15% inhibition of the free enzyme, not of the immobilized enzyme
pyruvate
the competitive inhibitor diminishes enzyme velocity at low concentrations of substrate but the velocity reaches uninhibited maximal levels at high concentrations of substrate
ZnSO4
-
1 mM concentration, 10% inhibition of the free enzyme, not of the immobilized enzyme
ZnSO4
-
90% residual activity at 1 mM
ZnSO4
-
0.1 mM concentration 12% inhibition
ZnSO4
-
61.3% residual activity at 0.1 mM
additional information
-
no effect: metals ions and flavins
-
additional information
-
the enzyme does not show substrate inhibition up to a oxalate concentration of 50 mM
-
additional information
for wild type oxalate oxidase, glycolate does not serve as a substrate and does not significantly inhibit turnover when included in the assay at equimolar (20mM) concentrations of oxalate
-
additional information
-
the presence of either superoxide dismutase or manganese catalase in the assay mixture dramatically accelerates turnover inactivation and resultes in a vanishingly small Vs value in the steady state
-
additional information
-
acetone precipitation has no influence on the activity of barley oxalate oxidase
-
additional information
-
not influenced by EDTA, NaCl, and MgSO4
-
additional information
-
not influenced by riboflavin and FMN
-
additional information
-
not influenced by FeSO4
-
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Characterization of recombinant barley oxalate oxidase expressed by Pichia pastoris
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brenda
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Amaranthus spinosus
-
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brenda
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Hordeum vulgare
brenda
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brenda
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Helianthus annuus
-
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Hordeum vulgare, Musa acuminata
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Sorghum sp., Sorghum sp. CSH-5
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brenda
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-
brenda
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-
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Sorghum sp.
-
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1966
Hordeum vulgare
brenda
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Oxalate oxidation by an obligately parasitic fungus Tilletia contraversa
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95
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1961
Tilletia controversa
brenda
Tamas, L.; Simonovicova, M.; Huttova, J.; Mistrik, I.
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26
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2004
Hordeum vulgare
-
brenda
Singh, G.; Suman; Tanwar, D.N.; Pundir, C.S.
Entrapment of sorghum root oxalate oxidase into polyvinyl alcohol membrane
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39
397-400
2002
Sorghum bicolor
brenda
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2004
Hordeum vulgare, Triticum aestivum
brenda
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Overexpression of a gene encoding hydrogen peroxide-generating oxalate oxidase evokes defense responses in sunflower
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133
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2003
Triticum aestivum
brenda
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Formation of wheat (Triticum aestivum L.) embryogenic callus involves peroxide-generating germin-like oxalate oxidase
Planta
219
132-140
2004
Triticum aestivum
brenda
Chen, J.; Yue, R.; Xu, H.; Chen, X.
Study on plant regeneration of wheat mature embryos under endosperm-supported culture
Agric. Sci. China
5
572-578
2006
Triticum aestivum
-
brenda
Escutia, M.R.; Bowater, L.; Edwards, A.; Bottrill, A.R.; Burrell, M.R.; Polanco, R.; Vicuna, R.; Bornemann, S.
Cloning and sequencing of two Ceriporiopsis subvermispora bicupin oxalate oxidase allelic isoforms: implications for the reaction specificity of oxalate oxidases and decarboxylases
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71
3608-3616
2005
Gelatoporia subvermispora
brenda
Betsche, T.; Fretzdorff, B.
Biodegradation of oxalic acid from spinach using cereal radicles
J. Agric. Food Chem.
53
9751-9758
2005
Avena sativa, Hordeum vulgare, Secale cereale, Triticum aestivum, Zea mays, Triticum spelta
brenda
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Structural and spectroscopic studies shed light on the mechanism of oxalate oxidase
J. Biol. Chem.
281
6428-6433
2006
Hordeum vulgare (P45850)
brenda
Whittaker, M.M.; Pan, H.Y.; Yukl, E.T.; Whittaker, J.W.
Burst kinetics and redox transformations of the active site manganese ion in oxalate oxidase: Implications for the catalytic mechanism
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282
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2007
Hordeum vulgare
brenda
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Catalytic Reaction Mechanism of Oxalate Oxidase (Germin). A Hybrid DFT Study
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1
686-693
2005
Hordeum vulgare
brenda
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Purification and properties of oxalate oxidase from NaCl stressed grain sorghum seedlings
J. Plant Biochem. Biotechnol.
15
55-57
2006
Sorghum bicolor
-
brenda
Chipps, T.J.; Gilmore, B.; Myers, J.R.; Stotz, H.U.
Relationship between oxalate, oxalate oxidase activity, oxalate sensitivity, and white mold susceptibility in Phaseolus coccineus
Phytopathology
95
292-299
2005
Hordeum vulgare, Phaseolus coccineus, Phaseolus vulgaris
brenda
Tamas, L.; Budikova, S.; Huttova, J.; Mistrik, I.; Simonovicova, M.; Siroka, B.
Aluminum-induced cell death of barley-root border cells is correlated with peroxidase- and oxalate oxidase-mediated hydrogen peroxide production
Plant Cell Rep.
24
189-194
2005
Hordeum vulgare
brenda
Turhan, H.
Salinity response of transgenic potato genotypes expressing the oxalate oxidase gene
Turk. J. Agric. For.
29
187-195
2005
Hordeum vulgare
-
brenda
Burrell, M.R.; Just, V.J.; Bowater, L.; Fairhurst, S.A.; Requena, L.; Lawson, D.M.; Bornemann, S.
Oxalate decarboxylase and oxalate oxidase activities can be interchanged with a specificity switch of up to 282,000 by mutating an active site lid
Biochemistry
46
12327-12336
2007
Bacillus subtilis, Hordeum vulgare (P45850), Gelatoporia subvermispora (Q5ZH56)
brenda
Pundir, C.S.; Chauhan, N.S.; Bhambi, M.
Activation of polyvinyl chloride sheet surface for covalent immobilization of oxalate oxidase and its evaluation as inert support in urinary oxalate determination
Anal. Biochem.
374
272-277
2008
Sorghum bicolor
brenda
Pan, H.Y.; Whittaker, M.M.; Bouveret, R.; Berna, A.; Bernier, F.; Whittaker, J.W.
Characterization of wheat germin (oxalate oxidase) expressed by Pichia pastoris
Biochem. Biophys. Res. Commun.
356
925-929
2007
Triticum aestivum (P15290), Triticum aestivum
brenda
Bhambi, M.; Pundir, C.S.
Immobilization of grain-sorghum (Sorghum bicolor, var. CSH-14) leaf oxalate oxidase on to a modified mica chip and its application in the determination of urinary oxalate
Biotechnol. Appl. Biochem.
47
125-129
2007
Sorghum bicolor
brenda
Scarpellini, M.; Gaetjens, J.; Martin, O.J.; Kampf, J.W.; Sherman, S.E.; Pecoraro, V.L.
Modeling the resting state of oxalate oxidase and oxalate decarboxylase enzymes
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2008
Hordeum vulgare
brenda
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Diverted secondary metabolism and improved resistance to European corn borer (Ostrinia nubilalis) in maize (Zea mays L.) transformed with wheat oxalate oxidase
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2007
Triticum aestivum (P15290), Triticum aestivum
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In vivo measurements of changes in pH triggered by oxalic acid in leaf tissue of transgenic oilseed rape
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18
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2007
Triticum aestivum
brenda
Welch, A.J.; Stipanovic, A.J.; Maynard, C.A.; Powell, W.A.
The effects of oxalic acid on transgenic Castanea dentata callus tissue expressing oxalate oxidase
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172
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2007
Triticum aestivum
brenda
Dong, X.; Ji, R.; Guo, X.; Foster, S.J.; Chen, H.; Dong, C.; Liu, Y.; Hu, Q.; Liu, S.
Expressing a gene encoding wheat oxalate oxidase enhances resistance to Sclerotinia sclerotiorum in oilseed rape (Brassica napus)
Planta
228
331-340
2008
Triticum aestivum
brenda
Cassland, P.; Sjoede, A.; Winestrand, S.; Joensson, L.J.; Nilvebrant, N.O.
Evaluation of oxalate decarboxylase and oxalate oxidase for industrial applications
Appl. Biochem. Biotechnol.
161
255-263
2010
Hordeum vulgare
brenda
Graz, M.; Jarosz-Wilkolazka, A.; Pawlikowska-Pawlega, B.
Abortiporus biennis tolerance to insoluble metal oxides: oxalate secretion, oxalate oxidase activity, and mycelial morphology
Biometals
22
401-410
2009
Abortiporus biennis
brenda
Godara, S.; Pundir, C.S.
Urinary & serum oxalate determination by oxalate oxidase immobilized on to affixed arylamine glass beads
Indian J. Med. Res.
127
370-376
2008
Amaranthus spinosus
brenda
Wan, X.; Tan, J.; Lu, S.; Lin, C.; Hu, Y.; Guo, Z.
Increased tolerance to oxidative stress in transgenic tobacco expressing a wheat oxalate oxidase gene via induction of antioxidant enzymes is mediated by H2O2
Physiol. Plant.
136
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2009
Triticum aestivum (P15290), Triticum aestivum
brenda
Sathishraj, R.; Augustin, A.
Oxalic acid and oxalate oxidase enzyme in Costus pictus D. Don
Acta Physiol. Plant.
34
657-667
2012
Costus pictus
-
brenda
Moussatche, P.; Angerhofer, A.; Imaram, W.; Hoffer, E.; Uberto, K.; Brooks, C.; Bruce, C.; Sledge, D.; Richards, N.G.; Moomaw, E.W.
Characterization of Ceriporiopsis subvermispora bicupin oxalate oxidase expressed in Pichia pastoris
Arch. Biochem. Biophys.
509
100-107
2011
Gelatoporia subvermispora (Q5ZH56), Gelatoporia subvermispora
brenda
Winestrand, S.; Larsson, S.; Cassland, P.; Nilvebrant, N.; Jnsson, L.
Effects of ionic substances in bleaching filtrates and of lignosulfonates on the activity of oxalate oxidase from barley
Eng. Life Sci.
11
245-252
2011
Hordeum vulgare
-
brenda
Kumar, R.; Hooda, V.; Pundir, C.S.
Purification and partial characterization of oxalate oxidase from leaves of forage Sorghum (Sorghum vulgare var. KH-105) seedlings
Indian J. Biochem. Biophys.
48
42-46
2011
Sorghum bicolor
brenda
Chauhan, N.; Hooda, V.; Pundir, C.
In vitro effects of metal oxide nanoparticles on barley oxalate oxidase
J. Nanopart. Res.
15
1493
2013
Hordeum vulgare, Hordeum vulgare BH393
-
brenda
Wakabayashi, K.; Soga, K.; Hoson, T.
Cell wall oxalate oxidase modifies the ferulate metabolism in cell walls of wheat shoots
J. Plant Physiol.
168
1997-2000
2011
Triticum aestivum
brenda
Zhang, J.; Lai, Y.; Liu, E.; Peng, X.
Function of oxalate oxidase (OxO) during coleoptile senescence in rice (Oryza sativa L.)
Plant Physiol. Commun.
46
1040-1044
2010
Oryza sativa
-
brenda
Moomaw, E.W.; Hoffer, E.; Moussatche, P.; Salerno, J.C.; Grant, M.; Immelman, B.; Uberto, R.; Ozarowski, A.; Angerhofer, A.
Kinetic and spectroscopic studies of bicupin oxalate oxidase and putative active site mutants
PLoS ONE
8
e57933
2013
Gelatoporia subvermispora
brenda
Graz, M.; Rachwal, K.; Zan, R.; Jarosz-Wilkolazka, A.
Oxalic acid degradation by a novel fungal oxalate oxidase from Abortiporus biennis
Acta Biochim. Pol.
63
595-600
2016
Abortiporus biennis
brenda
Moomaw, E.W.; Uberto, R.; Tu, C.
Membrane inlet mass spectrometry reveals that Ceriporiopsis subvermispora bicupin oxalate oxidase is inhibited by nitric oxide
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