Redox Properties of Cytochrome<i>c</i>Adsorbed on Self-Assembled Monolayers: A Probe for Protein Conformation and Orientation

Chen, Xiaoxi; Ferrigno, Rosaria; Yang, Jerry; Whitesides, George M.

doi:10.1021/la0204794

Cited by 206 publications

(269 citation statements)

References 59 publications

(115 reference statements)

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“…31 Also, the observation of such potential suggests that there is no change in the protein conformation in consequence of the SAM-Cyt c molecular recognition process. 32,33 Based on the Nicholson's method, 34 the dependence of the difference between the anodic and cathodic peak potentials ( E p ) on the scan rate allows one to estimate the kinetic parameter, . Based on equation 3 with f = F/RT, the heterogeneous electron transfer rate constant, k 0 , was determined from the slope of the curve presented in the plot of 2 vs. the reciprocal of the scan rate, v -1 (Figure 3c).…”

Section: Electroactivity Of the Hpyt Sammentioning

confidence: 99%

5-(4-pyridinyl)-1,3,4-oxadiazole-2-thiol on gold: SAM Formation and electroactivity

Paulo

Silva

Pinheiro

et al. 2008

J. Braz. Chem. Soc.

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O composto 5-(4-pyridinyl)-1,3,4-oxadiazole-2-thiol (Hpyt) adsorve espontaneamente sobre ouro formando SAMs ("Self-Assembled Monolayers") que, de acordo com os resultados eletroquímicos e de STM ("Scanning Tunneling Microscopy"), contêm poros através dos quais as moléculas dos complexos [Fe(CN) 6 ] 4-, a dependência da corrente faradáica com o pH da solução eletrolítica permitiu o cálculo do pKa da molécula de Hpyt adsorvida sobre ouro (4,2). Os parâmetros termodinâmicos, H ads and G ads , para o processo de adsorção desta molécula foram estimados em -20,01 e -39,39 kJ mol -1 , respectivamente, utilizando-se o modelo de Langmuir. O processo redox da metaloproteína citocromo c foi estudado utilizando-se a SAM de Hpyt. A constante de velocidade heterogênea de transferência de elétrons foi calculada em 2,29 10 -3 cm s -1 .5-(4-pyridinyl)-1,3,4-oxadiazole-2-thiol (Hpyt) spontaneously adsorbs on gold forming SAMs (self-assembled monolayers) that, based on STM (Scanning Tunneling Microscopy) and electrochemical data, contain pinholes through which [Fe(CN) 6 ] 4-and [Ru(NH 3 ) 6 ] 3+ probe molecules access the underlying gold electrode. For the former molecule, the dependence of the faradaic current on the electrolyte solution pH value allowed the evaluation of the surface pKa as 4.2. The thermodynamic parameters H ads and G ads for the Hpyt adsorption process could be described by the Langmuir model and were calculated as -20.01 and -39.39 kJ mol -1 , respectively. Electrodic redox reaction of cytochrome c metalloprotein was accessed by using the Hpyt SAM with a heterogeneous electron transfer rate constant of 2.29 10 -3 cm s -1 .

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Section: Electroactivity Of the Hpyt Sammentioning

confidence: 99%

5-(4-pyridinyl)-1,3,4-oxadiazole-2-thiol on gold: SAM Formation and electroactivity

Paulo

Silva

Pinheiro

et al. 2008

J. Braz. Chem. Soc.

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“…These methods include immobilizing the enzyme in a polyion film (Masuda and Fukuda, 1995), entrapping the enzyme in a sol-gel film (Masuda et al, 2000), incorporating the enzyme into conducting polymer films (Funk et al, 2005), modifying the enzyme with an electrical relay (Hahm and Lieber, 2003), functionalizing the electrode with a biomembrane-like surfactant (Ohldag et al, 2006), and supporting the enzyme in a clay nanoparticle modified electrode (Shumyantseva et al, 2004). However, because these methods do not control enzyme aggregation on the electrode surface, the efficiency of electron transfer to the active site of the enzyme may be reduced (Habermüller et al, 2000;Chen et al, 2002), potentially through altered enzyme conformation.…”

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confidence: 99%

“…For example, alkane-thiol or other thiol-terminated chains covalently bonded to a noble-metal surface and functionalized at the terminus with a group that binds to a specific site of the protein, which have been used to control enzyme binding orientation (Collinson and Bowden, 1992;Pardo-Yissar et al, 2000;Chen et al, 2002). CYP2E1 has been bonded through thiols, both directly or via a cysteine-maleimide linker, to a gold surface although enzyme orientation remained ambiguous (Fantuzzi et al, 2004).…”

mentioning

confidence: 99%

Electrocatalytic Drug Metabolism by CYP2C9 Bonded to A Self-Assembled Monolayer-Modified Electrode

Yang¹,

Kabulski²,

Wollenberg³

et al. 2009

Drug Metab Dispos

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ABSTRACT:Cytochrome P450 (P450) enzymes typically require the presence of at least cytochrome P450 reductase (CPR) and NADPH to carry out the metabolism of xenobiotics. To address whether the need for redox transfer proteins and the NADPH cofactor protein could be obviated, CYP2C9 was bonded to a gold electrode through an 11-mercaptoundecanoic acid and octanethiol self-assembled monolayer (SAM) through which a current could be applied. Cyclic voltammetry demonstrated direct electrochemistry of the CYP2C9 enzyme bonded to the electrode and fast electron transfer between the heme iron and the gold electrode. To determine whether this system could metabolize warfarin analogous to microsomal or expressed enzyme systems containing CYP2C9, warfarin was incubated with the CYP2C9-SAM-gold electrode and a controlled potential was applied.The expected 7-hydroxywarfarin metabolite was observed, analogous to expressed CYP2C9 systems, wherein this is the predominant metabolite. Current-concentration data generated with increasing concentrations of warfarin were used to determine the MichaelisMenten constant (K m ) for the hydroxylation of warfarin (3 M), which is in good agreement with previous literature regarding K m values for this reaction. In summary, the CYP2C9-SAM-gold electrode system was able to carry out the metabolism of warfarin only after application of an electrical potential, but in the absence of either CPR or NADPH. Furthermore, this system may provide a unique platform for both studying P450 enzyme electrochemistry and as a bioreactor to produce metabolites without the need for expensive redox transfer proteins and cofactors.Cytochrome P450 (P450) enzymes are important for drug metabolism in humans, accounting for ϳ75% metabolism of drugs (Williams et al., 2004). Numerous factors affect the P450 metabolism rate and the resulting metabolite structure including electron transfer, protein-protein interactions, concentration and structure of the substrate, and the source and specific means whereby the P450 was prepared (Guengerich, 2007). In practice, it is difficult to isolate the individual contributions of these factors because they are often interdependent. Thus, it is of interest to devise model platforms that can be used to independently control these parameters to monitor their respective effects on metabolism.P450 catalysis requires a constant supply of NADPH as the electron source and cytochrome P450 reductase (CPR) to deliver the electrons.In attempts to obviate the requirement of these redox partners/cofactors for catalysis, P450 enzymes have been immobilized on electrodes so that the electrode supplies electrons to drive the P450 catalytic cycle (Estabrook et al., 1996;Reipa et al., 1997;Gilardi et al., 2002) with effective electrical communication between the electrode and the enzyme being critical (Yang et al., 2008). Direct adsorption of enzymes on bare electrodes, such as gold, platinum, and graphite, results in diminished biocatalytic activity (Habermüller et al., 2000;Joseph et al., 2003;Shumy...

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“…In both the photosynthetic and respiratory chains, the transport of electrons between the enzymes embedded in the membrane is accomplished either by molecules freely diffusing in the membrane, the quinones, or water soluble electron carrying proteins, such as cytochrome (cyt) c. This small monoheme protein (12.5 kDa) [4][5][6], which transfers electrons between cyt bc1 complex and cyt c oxidase in the mitochondrial respiratory chain, has long served as a model system for mechanistic studies of protein ET processes. Important insight into the distance dependence and reorganization energy of the ET process has been gained from protein film voltammetry studies of cyt c immobilized on electrodes modified with various functional groups including alkyl [7], pyridyl [8,9], amino [10,11], carboxyl [12][13][14], L-cysteinyl [15] and hydroxyl [16]. In particular, studies at metallic surfaces modified with -carboxyl alkanethiols by a combined approach of electrochemistry, surface-enhanced and time-resolved spectroscopic techniques have provided a full image of the electron transfer dynamics of electrostatically immobilized cyt c and have highlighted the important role of electric field effects in the ET properties [17][18][19][20][21].…”

Section: Introductionmentioning

confidence: 99%

Electrochemical study of an electron shuttle diheme protein: The cytochrome c from T. thermophilus

Melin

Schoepp‐Cothenet²,

Abdulkarim³

et al. 2017

Inorganica Chimica Acta

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ABSTRACT:Cytochrome c550, a diheme protein from the thermophilic bacterium Thermus thermophilus, is involved in an alternative respiration pathway allowing the detoxification of sulfite ions. It transfers the two electrons released from the oxidation of sulfite in a sulfite:cytochrome c oxidoreductase (SOR) enzyme to heme/copper oxidases via the monoheme cytochrome c552. It consists of two conformationally independent and structurally different domains (the C-and Nterminal) connected by a flexible linker. Both domains harbor one heme moiety. We report here the redox properties of the full-length protein and the individual C-and N-terminal fragments.We show by UV/Vis and EPR potentiometric titrations that the two fragments exhibit very similar potentials, despite their different environments. In the full-length protein, however, the N-terminal heme is easier to reduce than the C-terminal one, due to cooperative interactions.This finding is consistent with the kinetic measurements which showed that the N-terminal domain only accepts electrons from the SOR. Cytochrome c552 is able to interact with its partners both through electrostatic and hydrophobic interactions as could be shown by measuring efficient electron transfer at gold electrodes modified with charged and hydrophobic groups, respectively. The coupling of electrochemistry with infrared spectroscopy allowed us to monitor the conformational changes induced by electron transfer to each heme separately and to both simultaneously.

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Redox Properties of CytochromecAdsorbed on Self-Assembled Monolayers: A Probe for Protein Conformation and Orientation

Cited by 206 publications

References 59 publications

5-(4-pyridinyl)-1,3,4-oxadiazole-2-thiol on gold: SAM Formation and electroactivity

5-(4-pyridinyl)-1,3,4-oxadiazole-2-thiol on gold: SAM Formation and electroactivity

Electrocatalytic Drug Metabolism by CYP2C9 Bonded to A Self-Assembled Monolayer-Modified Electrode

Electrochemical study of an electron shuttle diheme protein: The cytochrome c from T. thermophilus

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