print visible entries

print all entries

Ligand oxidized electron acceptor

Basic Ligand Information

Pathway Source

Pathways

BRENDA

4-hydroxymandelate degradation, acetoin degradation, alanine metabolism, androgen and estrogen metabolism, ascorbate metabolism, bile acid biosynthesis, neutral pathway, coenzyme M biosynthesis, glycolate and glyoxylate degradation, heme metabolism, histidine metabolism, ketogluconate metabolism, L-lactaldehyde degradation, metabolism of disaccharids, methane metabolism, methanogenesis from CO2, nitrate assimilation, octane oxidation, proline metabolism, sulfate reduction, tryptophan metabolism, ubiquinone biosynthesis, vitamin B1 metabolism, vitamin B12 metabolism more

Show all BRENDA pathways known for oxidized electron acceptor

close all tables

open all tables

Roles as Enzyme Ligand

In Vivo Substrate in Enzyme-catalyzed Reactions (1 result)

top print hide

Show Natural Substrate (1 entry)

EC NUMBER

LITERATURE

REACTION DIAGRAM

PROVEN IN VIVO REACTION

ENZYME 3D STRUCTURE

1.1.5.14

760893, 760656

D-fructose + oxidized electron acceptor = 5-dehydro-D-fructose + reduced electron acceptor

-

In Vivo Product in Enzyme-catalyzed Reactions (3 results)

top print hide

Show Natural Product (3 entries)

EC NUMBER

LITERATURE

REACTION DIAGRAM

PROVEN IN VIVO REACTION

ENZYME 3D STRUCTURE

1.97.1.1

437681,

chlorate + reduced electron acceptor = chlorite + H2O + oxidized electron acceptor

-

1.97.1.1

-

perchlorate + reduced electron acceptor = chlorate + H2O + oxidized electron acceptor

-

1.97.1.1

2 entries

4.1.99.22

-

GTP + S-adenosyl-L-methionine + reduced electron acceptor = (8S)-3',8-cyclo-7,8-dihydroguanosine 5'-triphosphate + 5'-deoxyadenosine + L-methionine + oxidized electron acceptor

-

Substrate in Enzyme-catalyzed Reactions (2 results)

top print hide

Show Substrate (2 entries)

EC NUMBER

LITERATURE

REACTION DIAGRAM

REACTION

ENZYME 3D STRUCTURE

1.1.5.14

760893, 760656

D-fructose + oxidized electron acceptor = 5-dehydro-D-fructose + reduced electron acceptor

-

1.12.99.6

702307, 704015, 704013, 704012, 687302

H2 + oxidized electron acceptor = H+ + reduced electron acceptor

-

Product in Enzyme-catalyzed Reactions (7 results)

top print hide

Show Product (7 entries)

EC NUMBER

LITERATURE

REACTION DIAGRAM

REACTION

ENZYME 3D STRUCTURE

1.97.1.1

-

bromate + reduced electron acceptor = bromite + H2O + oxidized electron acceptor

-

1.97.1.1

437684, , 437685, 437681

chlorate + reduced electron acceptor = chlorite + H2O + oxidized electron acceptor

-

1.97.1.1

-

iodate + reduced electron acceptor = iodite + H2O + oxidized electron acceptor

-

1.97.1.1

-

nitrate + reduced electron acceptor = nitrite + H2O + oxidized electron acceptor

-

1.97.1.1

437685, 437686,

perchlorate + reduced electron acceptor = chlorate + H2O + oxidized electron acceptor

-

4.1.99.22

-

GMP[CH2]PP + S-adenosyl-L-methionine + reduced electron acceptor = (8S)-3',8-cyclo-7,8-dihydroguanosine-P[CH2]PP + 5'-deoxyadenosine + L-methionine + oxidized electron acceptor

-

4.1.99.22

-

GTP + S-adenosyl-L-methionine + reduced electron acceptor = (8S)-3',8-cyclo-7,8-dihydroguanosine 5'-triphosphate + 5'-deoxyadenosine + L-methionine + oxidized electron acceptor

-

1.97.1.1

5 entries

4.1.99.22

2 entries

Enzyme Kinetic Parameters

References & Links

Literature References (11)

top print hide

Show Reference (11 entries)

BRENDA REFERENCE ID

PUBMED ID

TITLE

YEAR

AUTHORS

JOURNAL

VOLUME

PAGES

437681

-

Characterization of purified nitrate reductase A and chlorate reductase C from Proteus mirabilis

1976

Oltmann, L.F.; Reijnders, W.N.M.; Stouthamer, A.H.

Arch. Microbiol.

1111

25-35

437684

-

Chlorate and nitrate reduction in the phototrophic bacteria Rhodobacter capsulatus and Rhodobacter sphaeroides

1994

Roldan, M.D.; Reyes, F.; Moreno-Vivian, C.; Castillo, F.

Curr. Microbiol.

29

241-245

437685

10542172

Purification and characterization of (per)chlorate reductase from the chlorate-respiring strain GR-1

1999

Kengen, S.W.M.; Rikken, G.B.; Hagen, W.R.; Van Ginkel, C.G.; Stams, A.J.M.

J. Bacteriol.

181

6706-6711

437686

11770848

Perchlorate and nitrate reductase activity in the perchlorate-respiring bacterium perclace

2001

Giblin, T.; Frankenberger, W.T., Jr.

Microbiol. Res.

156

311-315

687302

18205358

[FeFe]-hydrogenase-catalyzed H2 production in a photoelectrochemical biofuel cell

2008

Hambourger, M.; Gervaldo, M.; Svedruzic, D.; King, P.W.; Gust, D.; Ghirardi, M.; Moore, A.L.; Moore, T.A.

J. Am. Chem. Soc.

130

2015-2022

702307

19397274

The structure of the active site H-cluster of [FeFe] hydrogenase from the green alga Chlamydomonas reinhardtii studied by X-ray absorption spectroscopy

2009

Stripp, S.; Sanganas, O.; Happe, T.; Haumann, M.

Biochemistry

48

5042-5049

704012

18333613

Terminal hydride in [FeFe]-hydrogenase model has lower potential for H2 production than the isomeric bridging hydride

2008

Barton, B.E.; Rauchfuss, T.B.

Inorg. Chem.

47

2261-2263

704013

18307282

Refining the active site structure of iron-iron hydrogenase using computational infrared spectroscopy

2008

Tye, J.W.; Darensbourg, M.Y.; Hall, M.B.

Inorg. Chem.

47

2380-2388

704015

19580299

Theoretical study of dioxygen induced inhibition of [FeFe]-hydrogenase

2009

Stiebritz, M.T.; Reiher, M.

Inorg. Chem.

48

7127-7140

760656

31063949

Bioelectrocatalytic performance of D-fructose dehydrogenase

2019

Adachi, T.; Kaida, Y.; Kitazumi, Y.; Shirai, O.; Kano, K.

Bioelectrochemistry

129

1-9

760893

-

The immobilization of fructose dehydrogenase on nanoporous gold electrodes for the detection of fructose

2017

Siepenkoetter, T.; Salaj-Kosla, U.; Magner, E.

ChemElectroChem

4

905-912

Links to other databases for oxidized electron acceptor

top print hide

Show Links (1 entry)