Regulation of ferrochelatase

Simpson, Denyse Marie

January 1977

Regulatory factors affecting ferrochelatase activity were studied and an attempt was made to determine the role of ferrochelatase in the regulation of heme biosynthesis. Ferrochelatase was found to have a Km value of 0.105 mM for the porphyrin substrates, proto and mesoporphyrin IX and a Km value of 8.30 x 10⁻³ mM for ferrous ion, its metal substrate. The Vmax values for proto and mesoporphyrin IX were 12.05 and 28.57 units/mg, respectively, and that of ferrous ion was 2.89-units/mg. Ferrochelatase exhibited feedback product inhibition by hemin in concentrations between 1 and 10 uM and stimulation of ferrochelatase activity by hemin at concentrations above 20 uM. Concentrations of ferrous ion exceeding 0.25 mM were found to inhibit ferrochelatase activity, indicating that the enzyme is subject to substrate inhibition. The iodoacetamide sensitive binding site of ferrochelatase was determined to be on the inside of the inner mitochondrial membrane in contact with the matrix. Ferrochelatase activity was found to be sensitive to its membrane environment, in particular it was dependent on the hydrophobic portion of the phospholipids for activity rather than their hydrophilic head groups. This was demonstrated in experiments in which the lipids were removed from submitochondrial particles or detergent-solubilized preparations of rat liver mitochondria by acetone extraction, and ferrochelatase activity reconstituted by the addition of lipids. Reactivation was found to be a function of the unsaturation of the acyl chain of either the fatty acid or phospholipid. Cholesterol was found to increase activity below 2 8°C and to decrease activity above 45°C. Discontinuities were seen in Arrhenius plots of ferrochelatase at 37°C for submitochondrial particles and at 28.5°C for detergentT-solubilized preparations. Ferrochelatase was shown to have an absolute requirement for calcium ions but this was not a requirement of the ferrochelatase protein, rather, it was mediated through some effect of calcium on the membrane. Ferrochelatase was observed to have an absolute requirement for ferrous ion as metal substrate and to be able to utilize ferric ion only in the presence of electron donors such as NADH, NADPH, succinate, ⍺-glycerol phosphate or choline chloride. The recovery of electrons from the donors for iron reduction was dependent upon the presence of their respective dehydrogenases and was independent of respiration or energy processes. In addition to providing reducing equivalents for iron reduction, the electron donors also stimulated ferrochelatase activity. Mitochondria from anaerobically grown Saccharomyces cerevisiae were found to have high ferrochelatase activity but to have no iron reduction activity, whereas mitochondria from aerobically grown S. cerevisiae possessed both high ferrochelatase and iron reducing abilities. The appearance of iron reduction ability during respiratory adaptation of yeast was found to correlate closely with the appearance of respiratory enzymes and to be one of the first activities detected after the onset of aerofoiosis. Conventional techniques were insufficient to separate the ferrochelatas and iron reductase activities, although an assay based on the reduction of PMS by ferrous ion was used to quantitate iron reduction activity independently. / Medicine, Faculty of / Biochemistry and Molecular Biology, Department of / Graduate

Ferrochelatase

Lyases

The interrelationship between ferrochelatase and protoporphyrinogen oxidase with particular reference to porphyria variegata and erythropoietic protoporphyria

Siepker, Lydia, Johanna

06 1900

This thesis was undertaken to determine if there is any interrelationship between the two terminal enzymes of the haem biosynthetic pathway, protoporphyrinogen oxidase (PPO) and ferrochelatase, with particular reference to porphyria variegata (PV) and erythropoietic protoporphyria (EPP)• It has previously been found that both enzymes were deficient in PV and EPP, there being a qualitative difference in so far as ferrochelatase deficiency is concerned. / IT2018

Ferrochelatase

Protoporphyrinogen Oxidase

Porphyria, Variegate

Protoporphyria, Erythropoietic

Heme biosynthesis: structure-activity studies of murine ferrochelatase /

Shi, Zhen.

January 2006

Dissertation (Ph.D.)--University of South Florida, 2006. / Includes vita. Includes bibliographical references. Also available online.

Expression and purification of \kur{Synechocystis} ferrochelatase from \kur{Escherichia coli} / Expression and purification of \kur{Synechocystis} ferrochelatase from \kur{Escherichia coli}

RICHTOVÁ, Jitka

January 2009

Ferrochelatase (FeCH) is an ubiquitous enzyme producing heme, an essential pigment for all forms of organisms. In photosynthetic organism, heme is synthesized together with the chlorophyll in one branched pathway and the FeCH enzyme appears to be important for regulation of both the chlorophyll and the heme biosynthesis. To understand regulatory role of this protein, an active recombinant FeCH from photosynthetic organism would be invaluable. The aim of this project is to express FeCH from cyanobacterium Synechocystis 6803 in Escherichia coli and to prepare a protocol for the purification of this protein as a highly active enzyme.

Grundlagen und Anwendung autofluoreszenzbasierter Diagnoseverfahren in der Chirurgie des kolorektalen Karzinoms

Moesta, K. Thomas

05 April 2004

Kolorektale Karzinome weisen eine Rotfluoreszenz auf. Die Art des zugrunde liegenden Fluorophors und sein diagnostisches Potential waren Gegenstand der Arbeit. Protoporphyrin IX (PpIX) wurde als das prädominant vorkommende Fluororphor in Primärtumoren und ihren Metastasen identifiziert. Das Fluorophor wurde in Abwesenheit von Nekrose und in sterilen Lokalisationen nachgewiesen. Affymetrix-GeneChip und quantitative PCR untersuchungen der Enzyme der Häm-Synthese machen eine Minderexpression als Ursache der PpIX Akkumulation wahrscheinlich. In Nicht-vorbehandelten Fällen erlaubt die PpIX-Fluoreszenz eine Diskrimination der metastatisch befallenen Lymphknoten mit einer Sensitivität von 62% bei einer Spezifität von 78% (p / Colorectal cancers exhibit a red fluorescence. The nature of the responsible fluorophore and its eventual diagnostic potential were investigated. Protoporphyrin IX (PpIX) was identified as the predominant fluorophore in primary tumors and their metastases. The fluorophore occurred in the absence of necrosis and in sterile locations. Affymetrix-GeneChip and quantitative PCR investigations of the heme metabolic pathway enzymes suggest a reduced expression of the enzyme ferrochelatase to cause the PpIX accumulation. In untreated cases, PpIX fluorescence discriminates metastatically involved lymph nodes from all other palpable nodes with a sensitivity of 62% at a specificity of 78% (p

Lymphknotenmetastasen

Fluoreszenz

Kolorektale Karzinome

Protoporphyrin IX

Ferrochelatase

Response

Colorectal cancer

Fluorescence

Protoporphyrin IX

Ferrochelatase

Response

Lymph node metastases

610 Medizin

33 Medizin

XH 3900

XH 2000

ddc:610

Expressão, purificação e estudos da ferroquelatase de Bacillus subtilis / Expression, Purification and Studies of Ferrochelatase from Bacillus subtilis

Paganelli, Marcella Oliva

24 July 2015

A cor vermelha brilhante característica do presunto Parma é resultante, principalmente, do pigmento Zinco-protoporfirina IX (ZnPP). A ZnPP é formada a partir da mioglobina por uma reação de transmetalação, catalisada pela enzima ferroquelatase (FECH), em que o íon de Fe(II) coordenado ao grupo heme é substituído pelo íon Zn(II). O presunto Parma apresenta uma maior estabilidade oxidativa em relação aos demais produtos cárneos curados além de não conter nitrito e nitrato, portanto, são considerados mais saudáveis. A utilização da FECH no processamento de carnes curadas pode permitir a produção de produtos cárneos curados mais saudáveis e em menor tempo. No presente trabalho a proteína ferroquelatase de Bacillus subtilis (BsFECH) foi expressa em células de E. coli BL21(DE3), purificada por cromatografia de afinidade ao níquel e exclusão por tamanho e caracterizada por dicroísmo circular, emissão de fluorescência do triptofano e cromatografia de exclusão por tamanho analítico. Em termos de estabilidade foi encontrado que altas concentrações de sal aumentam a estabilidade da proteína frente aos agentes denaturantes ureia e temperatura. A BsFECH produzida é capaz de ligar-se ao substrato modelo de porfirina (TPPS), conforme verificado por espectroscopia de UV-Vis, com uma Ka = 3,8x105 M-1 e é capaz de se associar à metamioglobina, conforme verificado por reação de cross-linking com dissuccinimidil suberato e avaliado por SDS-PAGE. A BsFECH aumenta significativamente a taxa de inserção de íons de zinco na TPPS e mostra uma cinética de saturação com uma constante de ligação aparente de Zn(II) ao complexo [BsFECH-TPPS] de 1,3x104 M e uma constante de primeira ordem de 6,6x10-1 h-1 para a dissociação do complexo ternário. A reação de troca ferro/zinco na mioglobina catalisada pela BsFECH é facilitada pela proteólise limitada da mioglobina com pepsina que abre um caminho para a reação de troca metálica com base na interação proteína-proteína entre o fragmento globina da mioglobina e a BsFECH. / The bright red color, characteristic of the Parma ham, results mainly of the pigment Zinc-Protoporphyrin IX (ZnPP). The ZnPP is formed from myoglobin by the reaction, catalyzed by ferrochelatase enzyme (FECH), in which Fe(II) ions coordinated to the heme group is replaced by Zn(II) ions. Parma ham shows greater oxidative stability when compared to others cured meat products besides do not contain nitrite and nitrate and, therefore, is considered healthier. The use of FECH in the processing of cured meats may allow the production of healthier cured meat products in a shorter period of time. In this work, the ferrochelatase protein from Bacillus subtilis was expressed in E. coli BL21(DE3) cells, purified by nickel affinity chromatography and size exclusion, and characterized by circular dichroism, fluorescence emission of tryptophan and analytical size exclusion chromatography. In terms of stability, it was found that the high salt content enhances the protein stability against the denaturation agents urea and temperature. The BsFECH produced is able to bind to the porphyrin model substrate (TPPS), as verified by UV-Vis spectroscopy, with Ka = 3.8x105 M-1 and is capable to associate to metamyoglobin as verified by cross-linking reaction with dissuccinimidil suberato, as observed by SDS-PAGE. The BsFECH increases, significantly, the zinc ions insertion rate in TPPS and shows a saturation kinetics behavior with an apparent biding constant of Zn(II) to the [BsFECH-TPPS] complex of 1.3x104 M and a first order rate constant for the dissociation of ternary complex of 6.6x10-1 h-1. The Fe/Zn exchange reaction in the myoglobin as catalyzed by BsFECH is facilitated by myoglobin-limited proteolysis with pepsin that opens a reaction channel for the metallic exchange based on protein-protein interaction between the globin moiety of myoglobin and BsFECH.

ferrochelatase

ferroquelatase

mioglobina

myoglobin

parma ham

presunto parma

protoporfirina IX de zinco

transmetalação

transmetalation

zinc protoporphyrin IX

Expressão, purificação e estudos da ferroquelatase de Bacillus subtilis / Expression, Purification and Studies of Ferrochelatase from Bacillus subtilis

Marcella Oliva Paganelli

24 July 2015

A cor vermelha brilhante característica do presunto Parma é resultante, principalmente, do pigmento Zinco-protoporfirina IX (ZnPP). A ZnPP é formada a partir da mioglobina por uma reação de transmetalação, catalisada pela enzima ferroquelatase (FECH), em que o íon de Fe(II) coordenado ao grupo heme é substituído pelo íon Zn(II). O presunto Parma apresenta uma maior estabilidade oxidativa em relação aos demais produtos cárneos curados além de não conter nitrito e nitrato, portanto, são considerados mais saudáveis. A utilização da FECH no processamento de carnes curadas pode permitir a produção de produtos cárneos curados mais saudáveis e em menor tempo. No presente trabalho a proteína ferroquelatase de Bacillus subtilis (BsFECH) foi expressa em células de E. coli BL21(DE3), purificada por cromatografia de afinidade ao níquel e exclusão por tamanho e caracterizada por dicroísmo circular, emissão de fluorescência do triptofano e cromatografia de exclusão por tamanho analítico. Em termos de estabilidade foi encontrado que altas concentrações de sal aumentam a estabilidade da proteína frente aos agentes denaturantes ureia e temperatura. A BsFECH produzida é capaz de ligar-se ao substrato modelo de porfirina (TPPS), conforme verificado por espectroscopia de UV-Vis, com uma Ka = 3,8x105 M-1 e é capaz de se associar à metamioglobina, conforme verificado por reação de cross-linking com dissuccinimidil suberato e avaliado por SDS-PAGE. A BsFECH aumenta significativamente a taxa de inserção de íons de zinco na TPPS e mostra uma cinética de saturação com uma constante de ligação aparente de Zn(II) ao complexo [BsFECH-TPPS] de 1,3x104 M e uma constante de primeira ordem de 6,6x10-1 h-1 para a dissociação do complexo ternário. A reação de troca ferro/zinco na mioglobina catalisada pela BsFECH é facilitada pela proteólise limitada da mioglobina com pepsina que abre um caminho para a reação de troca metálica com base na interação proteína-proteína entre o fragmento globina da mioglobina e a BsFECH. / The bright red color, characteristic of the Parma ham, results mainly of the pigment Zinc-Protoporphyrin IX (ZnPP). The ZnPP is formed from myoglobin by the reaction, catalyzed by ferrochelatase enzyme (FECH), in which Fe(II) ions coordinated to the heme group is replaced by Zn(II) ions. Parma ham shows greater oxidative stability when compared to others cured meat products besides do not contain nitrite and nitrate and, therefore, is considered healthier. The use of FECH in the processing of cured meats may allow the production of healthier cured meat products in a shorter period of time. In this work, the ferrochelatase protein from Bacillus subtilis was expressed in E. coli BL21(DE3) cells, purified by nickel affinity chromatography and size exclusion, and characterized by circular dichroism, fluorescence emission of tryptophan and analytical size exclusion chromatography. In terms of stability, it was found that the high salt content enhances the protein stability against the denaturation agents urea and temperature. The BsFECH produced is able to bind to the porphyrin model substrate (TPPS), as verified by UV-Vis spectroscopy, with Ka = 3.8x105 M-1 and is capable to associate to metamyoglobin as verified by cross-linking reaction with dissuccinimidil suberato, as observed by SDS-PAGE. The BsFECH increases, significantly, the zinc ions insertion rate in TPPS and shows a saturation kinetics behavior with an apparent biding constant of Zn(II) to the [BsFECH-TPPS] complex of 1.3x104 M and a first order rate constant for the dissociation of ternary complex of 6.6x10-1 h-1. The Fe/Zn exchange reaction in the myoglobin as catalyzed by BsFECH is facilitated by myoglobin-limited proteolysis with pepsin that opens a reaction channel for the metallic exchange based on protein-protein interaction between the globin moiety of myoglobin and BsFECH.

ferroquelatase

mioglobina

presunto parma

protoporfirina IX de zinco

transmetalação

ferrochelatase

myoglobin

parma ham

transmetalation

zinc protoporphyrin IX

Dual Sites For Heme Biosynthesis In The Malarial Parasite

Varadharajan, S

10 1900

No description available.

Malaria

Heme Biosynthesis

Malarial Parasite

Ferrochelatase

Plasmodium falclparum

P. falciparum

C5 Pathway

Heme Synthesis

Biochemistry

Control and function of two ferrochelatase isoforms in Arabidopsis thaliana

Fan, Tingting

18 March 2019

Die Tetrapyrrol-Biosynthese der Pflanzen ist ein hoch konservierter Prozess, indem sich die Häm- und Chlorophyllsynthese gemeinsame Syntheseschritte von der 5-Aminolävulinsäure (ALA)- bis hin zur Protoporphyrin IX (Proto)-Bildung teilen. Zur Hämsynthese sind in Arabidopsis thaliana zwei Isoformen der Ferrochelatase (FC) vorhanden, welche die Insertion von Eisenionen in Proto katalysieren. In dieser Arbeit wurden fc1 und fc2 Mutanten analysiert und für Komplementationsversuche mit nativen und modifizierten FC1/FC2-Sequenzen genutzt. Die in der fc1-2 Mutante gestörte Embryonalentwicklung infolge des FC1 Mangels konnte durch Expression eines pFC1::FC1 Genkonstruktes komplementiert werden. Die Expression von FC2 unter dem FC1 Promoter (pFC1::FC2) konnte die fc1-2 Mutante unter Standard-Wachstumsbedingungen vollständig komplementieren, jedoch nicht unter Salzstress. Zusätzlich zu den Komplementationsversuchen der fc1 Mutanten wurde auch eine fc2 Null-Mutante zur Expression der beiden genomischen FC Sequenzen herangezogen, um die spezifischen Funktionen der FC2-Varianten zu untersuchen. Während die pFC1FC2 (fc2/fc2) Pflanzen unter Dauerlicht eine vollständige Komplementation zeigten, konnte unter Kurztagbedingungen nur eine partielle Komplementation beobachtet werden. Versuche geben erste wichtige Hinweise, dass auch FC2 an der Regulation der ALA-Synthese infolge ihrer Interaktion mit PORB beteiligt ist. Dies deutet darauf hin, dass der Häm- und der Chlorophyllzweig eine gemeinsame Regulation der ALA-Synthese teilen, um das Gleichgewicht der TBS zu wahren. Neben der Funktion der FC2 in der Regulation der TBS konnte die vorliegende Arbeit ebenfalls die Rolle der FC2 in der Assemblierung der PSII-LHCII Superkomplexe offenlegen. Basierend auf den Ergebnissen, dieser Studie können Modelle für die funktionale Verteilung der beiden FC-Isoformen in unterschiedlichen Geweben und Entwicklungsstadien, sowie die Funktionen in verschiedenen biologischen Prozessen postuliert werden. / In plants, heme and chlorophyll synthesis share the common synthetic steps from 5- aminolevulinic acid (ALA) formation to Protoporphyrin IX (Proto) production in the conserved Tetrapyrrole biosynthesis (TBS) pathway. Arabidopsis thaliana utilizes two ferrochelatses (FC) to catalyse the insertion of ferrous iron into Proto to yield heme. In this study, the fc1 and fc2 defective mutants have been re-analysed and used for complementation tests with expression of a native or modified FC1/FC2 sequence. The pFC1FC1 (fc1/fc1) complementation plants confirmed that the defective embryo maturation in homozygous fc1-2 seeds is attributed to a lack of FC1. Expression of FC2 under the FC1 promoter contributed to a full complementation of fc1-2 under standard growth conditions, but not under salt stress. A fc2 null mutant has been used to express the two FC genomic sequences to substantiate the specific functions of FC2. Expression of FC2 under its own promoter was able to rescue fc2-2 mutants under both SD and CL conditions. However, pFC2FC1 (fc2/fc2) plants showed a partial complementation under SD condition. Via multiple interaction assays and mutant analyses, this thesis uncovered a mechanism of FC2 action on ALA synthesis regulation via interaction of FC2 and PORB. The results indicate that both branches of heme and chlorophyll synthesis share a common regulation to balance the TBS pathway. Apart from a role of FC2 involved in the regulation of TBS pathway, the presented study also revealed FC2 function in the assembly of the PSII-LHCII supercomplexes. Based on all the results obtained in this study, the functional distribution models of the two FC in different tissues and development stages, as well as diverse biological processes, have been proposed. In addition, to which extent that FC1/FC2 could compensate the function of the other isoform has been discussed.

Ferrochelatase

Embryo-Entwicklung

Salzstress

Tetrapyrrol-Biosynthese

ALA-synthese

Chlorophyll-katabolische Enzyme

PSII-LHCII Superkomplexe

ferrochelatase

embryo development

salt stress

tetrapyrrole synthesis

ALA synthesis

chlorophyll catabolic enzymes

PSII-LHCII supercomplexes

570 Biowissenschaften; Biologie

ddc:570

Molekulární patologie vybraných porfyrií s kožní manifestací / Molecular pathology of selected porphyria with skin manifestation

Sameh Anwar Hussein Farrag, Mohamed

January 2015

Porphyria is a group of inherited metabolic disorders due to enzymatic defect of the heme biosynthesis resulting in the overproduction of the heme precursors' porphyrins in different body organs. The enzymes of the heme biosynthesis are encoded by corresponding genes in which any defect in any of these genes lead to a specific type of porphyria. Numerous mutations were detected in these genes leading to impairment in the enzyme function and therefore developing of the clinical manifestations of porphyria. The aim of the present work was to investigate the UROD gene in patients with porphyria cutanea tarda (PCT) and hepatoerythropoietic protoporphyria (HEP) as well as the FECH gene in patients with erythropoietic protoporphyria (EPP) on a molecular level. We identified numerous mutations in the FECH and the UROD genes in three different populations, Czech, Slovak, and Egyptian. We described the novel mutations in the UROD gene in HEP Arabic patients from Egypt as well in the FECH gene in patients with EPP of Czech and Slovak origin. We expressed mutatted UROD protein in prokaryotic system and found 19 % of the wild-type enzymatic activity. Moreover, the current study presents for the first time the frequency of the low expression allele IVS3-48c in the FECH gene in healthy controls from the Czech...