2po5

Crystal structure of human ferrochelatase mutant with His 263 replaced by Cys

OverviewOverview

Ferrochelatase catalyzes the terminal step in heme biosynthesis, the, insertion of ferrous iron into protoporphyrin to form protoheme IX. The, crystal structures of human ferrochelatase both with and without the, protoporphyrin substrate bound have been determined previously. The, substrate-free enzyme has an open active site pocket, while in the, substrate-bound enzyme, the active site pocket is closed around the, porphyrin macrocycle and a number of active site residues have reoriented, side chains. To understand how and why these structural changes occur, we, have substituted three amino acid residues (H263, H341, and F337) whose, side chains occupy different spatial positions in the substrate-free, versus substrate-bound ferrochelatases. The catalytic and structural, properties of ferrochelatases containing the amino acid substitutions, H263C, H341C, and F337A were examined. It was found that in the H263C and, H341C variants, but not the F337A variant enzymes, the side chains of N75, M76, R164, H263, F337, H341, and E343 are oriented in a fashion similar to, what is found in ferrochelatase with the bound porphyrin substrate., However, all of the variant forms possess open active site pockets which, are found in the structure of porphyrin-free ferrochelatase. Thus, while, the interior walls of the active site pocket are remodeled in these, variants, the exterior lips remain unaltered in position. One possible, explanation for this collective reorganization of active site side chains, is the presence of a hydrogen bond network among H263, H341, and E343., This network is disrupted in the variants by alteration of H263C or H341C., In the substrate-bound enzyme, the formation of a hydrogen bond between, H263 and a pyrrole nitrogen results in disruption of the network. The, possible role of this network in catalysis is discussed.

DiseaseDisease

Known diseases associated with this structure: Protoporphyria, erythropoietic OMIM:[177000], Protoporphyria, erythropoietic, recessive, with liver failure OMIM:[177000]

About this StructureAbout this Structure

2PO5 is a Single protein structure of sequence from Homo sapiens with FES and CHD as ligands. Active as Ferrochelatase, with EC number 4.99.1.1 Full crystallographic information is available from OCA.

ReferenceReference

Altered orientation of active site residues in variants of human ferrochelatase. Evidence for a hydrogen bond network involved in catalysis., Dailey HA, Wu CK, Horanyi P, Medlock AE, Najahi-Missaoui W, Burden AE, Dailey TA, Rose J, Biochemistry. 2007 Jul 10;46(27):7973-9. Epub 2007 Jun 14. PMID:17567154

Page seeded by OCA on Mon Nov 12 23:25:47 2007