Metabolic Modeling Tutorial
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BioCyc websites down
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Metabolic Modeling Tutorial
discounted EARLY registration ends Dec 31, 2014
BioCyc websites down
12/28 - 12/31
for maintenance.
Metabolic Modeling Tutorial
discounted EARLY registration ends Dec 31, 2014
BioCyc websites down
12/28 - 12/31
for maintenance.
Metabolic Modeling Tutorial
discounted EARLY registration ends Dec 31, 2014
BioCyc websites down
12/28 - 12/31
for maintenance.
Metabolic Modeling Tutorial
discounted EARLY registration ends Dec 31, 2014
BioCyc websites down
12/28 - 12/31
for maintenance.
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MetaCyc Reaction: 1.14.13.58

Superclasses: Reactions Classified By Conversion Type Simple Reactions Chemical Reactions
Reactions Classified By Substrate Small-Molecule Reactions

EC Number: 1.14.13.58

In Pathway: 3-phenylpropionate degradation

The reaction direction shown, that is, A + B ↔ C + D versus C + D ↔ A + B, is in accordance with the Enzyme Commission system.

Most BioCyc compounds have been protonated to a reference pH value of 7.3, and some reactions have been computationally balanced for hydrogen by adding free protons. Please see the PGDB Concepts Guide for more information.

Mass balance status: Balanced.

Enzyme Commission Primary Name: benzoyl-CoA 3-monooxygenase

Enzyme Commission Synonyms: benzoyl-CoA 3-hydroxylase

Standard Gibbs Free Energy (ΔrG in kcal/mol): -91.900635 Inferred by computational analysis [Latendresse13]

Enzyme Commission Summary:
The enzyme from the denitrifying bacterium Pseudomonas KB740 catalyses a flavin-requiring reaction (FAD or FMN). Benzoate is not a substrate.

Citations: [Niemetz95]

Unification Links: KEGG:R02449 , Rhea:23216

Relationship Links: BRENDA:EC:1.14.13.58 , ENZYME:EC:1.14.13.58 , IUBMB-ExplorEnz:EC:1.14.13.58


References

Latendresse13: Latendresse M. (2013). "Computing Gibbs Free Energy of Compounds and Reactions in MetaCyc."

Niemetz95: Niemetz R, Altenschmidt U, Brucker S, Fuchs G (1995). "Benzoyl-coenzyme-A 3-monooxygenase, a flavin-dependent hydroxylase. Purification, some properties and its role in aerobic benzoate oxidation via gentisate in a denitrifying bacterium." Eur J Biochem 227(1-2);161-8. PMID: 7851381


Report Errors or Provide Feedback
Please cite the following article in publications resulting from the use of MetaCyc: Caspi et al, Nucleic Acids Research 42:D459-D471 2014
Page generated by SRI International Pathway Tools version 18.5 on Sun Dec 21, 2014, BIOCYC13B.