The Enzyme Commission number ( EC number ) is a numerical classification scheme for enzymes , based on the chemical reactions they catalyze . As a system of enzyme nomenclature , every EC number is associated with a recommended name for the corresponding enzyme-catalyzed reaction.
6-738: S-methyl-5'-thioinosine phosphorylase ( EC 2.4.2.44 , MTIP , MTI phosphorylase , methylthioinosine phosphorylase ) is an enzyme with systematic name S-methyl-5'-thioinosine:phosphate S-methyl-5-thio-alpha-D-ribosyl-transferase . This enzyme catalyses the following chemical reaction The catabolism of 5'-methylthioadenosine in Pseudomonas aeruginosa involves deamination to S-methyl-5'-thioinosine ( EC 3.5.4.31 , S-methyl-5'-thioadenosine deaminase) and phosphorolysis to hypoxanthine . Enzyme Commission number EC numbers do not specify enzymes but enzyme-catalyzed reactions. If different enzymes (for instance from different organisms) catalyze
12-629: Is different from the 'FORMAT NUMBER' Oxidation /reduction reactions; transfer of H and O atoms or electrons from one substance to another Similarity between enzymatic reactions can be calculated by using bond changes, reaction centres or substructure metrics (formerly EC-BLAST], now the EMBL-EBI Enzyme Portal). Before the development of the EC number system, enzymes were named in an arbitrary fashion, and names like old yellow enzyme and malic enzyme that give little or no clue as to what reaction
18-689: The International Congress of Biochemistry in Brussels set up the Commission on Enzymes under the chairmanship of Malcolm Dixon in 1955. The first version was published in 1961, and the Enzyme Commission was dissolved at that time, though its name lives on in the term EC Number . The current sixth edition, published by the International Union of Biochemistry and Molecular Biology in 1992 as
24-417: The letters "EC" followed by four numbers separated by periods. Those numbers represent a progressively finer classification of the enzyme. Preliminary EC numbers exist and have an 'n' as part of the fourth (serial) digit (e.g. EC 3.5.1.n3). For example, the tripeptide aminopeptidases have the code "EC 3.4.11.4", whose components indicate the following groups of enzymes: NB:The enzyme classification number
30-419: The same reaction, then they receive the same EC number. Furthermore, through convergent evolution , completely different protein folds can catalyze an identical reaction (these are sometimes called non-homologous isofunctional enzymes ) and therefore would be assigned the same EC number. By contrast, UniProt identifiers uniquely specify a protein by its amino acid sequence. Every enzyme code consists of
36-457: Was catalyzed were in common use. Most of these names have fallen into disuse, though a few, especially proteolyic enzymes with very low specificity, such as pepsin and papain , are still used, as rational classification on the basis of specificity has been very difficult. By the 1950s the chaos was becoming intolerable, and after Hoffman-Ostenhof and Dixon and Webb had proposed somewhat similar schemes for classifying enzyme-catalyzed reactions,
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