Identification and Characterization of Solvent-Filled Channels in Human Ferrochelatase

Medlock, Amy E; Najahi-Missaoui, Wided; Ross, Teresa A; Dailey, Tamara A; Burch, Joseph; OBrien, Jessica R; Lanzilotta, William N; Dailey, Harry A

doi:10.1021/bi300598g

Title: Identification and Characterization of Solvent-Filled Channels in Human Ferrochelatase

Journal Article · Fri Aug 31 00:00:00 EDT 2012 · Biochemistry-US

DOI:https://doi.org/10.1021/bi300598g· OSTI ID:1047914

Medlock, Amy E; Najahi-Missaoui, Wided; Ross, Teresa A; Dailey, Tamara A; Burch, Joseph; OBrien, Jessica R; Lanzilotta, William N; Dailey, Harry A ^[1]

Georgia

Ferrochelatase catalyzes the formation of protoheme from two potentially cytotoxic products, iron and protoporphyrin IX. While much is known from structural and kinetic studies on human ferrochelatase of the dynamic nature of the enzyme during catalysis and the binding of protoporphyrin IX and heme, little is known about how metal is delivered to the active site and how chelation occurs. Analysis of all ferrochelatase structures available to date reveals the existence of several solvent-filled channels that originate at the protein surface and continue to the active site. These channels have been proposed to provide a route for substrate entry, water entry, and proton exit during the catalytic cycle. To begin to understand the functions of these channels, we investigated in vitro and in vivo a number of variants that line these solvent-filled channels. Data presented herein support the role of one of these channels, which originates at the surface residue H240, in the delivery of iron to the active site. Structural studies of the arginyl variant of the conserved residue F337, which resides at the back of the active site pocket, suggest that it not only regulates the opening and closing of active site channels but also plays a role in regulating the enzyme mechanism. These data provide insight into the movement of the substrate and water into and out of the active site and how this movement is coordinated with the reaction mechanism.

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Research Organization:: Argonne National Lab. (ANL), Argonne, IL (United States). Advanced Photon Source (APS)

Sponsoring Organization:: NSFNIH

OSTI ID:: 1047914

Journal Information:: Biochemistry-US, Vol. 51, Issue (27) ; 07, 2012; ISSN 0006-2960

Country of Publication:: United States

Language:: ENGLISH

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59 BASIC BIOLOGICAL SCIENCES
60 APPLIED LIFE SCIENCES
CATALYSIS
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HEME
IN VITRO
IN VIVO
IRON
KINETICS
PROTEINS
PROTONS
PROTOPORPHYRINS
REACTION KINETICS
RESIDUES
SUBSTRATES
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Title: Identification and Characterization of Solvent-Filled Channels in Human Ferrochelatase

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