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Bioelectricity generation using long-term operated biocathode: RFLP based microbial diversity analysis, Ramanaiaha, S. V., Cordas C. M., Matias S. C., Reddyd M. V., Leitão J. H., and Fonseca L. P. , Biotechnology Reports, Volume 32, p.e00693, (2021)
In Situ Electrochemical Characterization of a Microbial Fuel Cell Biocathode Running on Wastewater, Ramanaiah, S. V., Cordas C. M., Matiasand S., and Fonseca L. P. , Catalysts, Volume 11, p.839, (2021)
Relations between mercury, methyl-mercury and selenium in tissues of Octopus vulgaris from the Portuguese Coast, Raimundo, Joana, Vale Carlos, Canario Joao, Branco Vasco, and Moura Isabel , Environmental Pollution, Jun, Volume 158, Number 6, p.2094-2100, (2010) AbstractWebsite

Mercury, methyl-mercury (MeHg) and selenium were determined in digestive gland and mantle of Octopus vulgaris, from three areas of the Portuguese coast. To our knowledge these are the first data on MeHg in cephalopods. Concentrations were higher in the digestive gland and percentage of MeHg in mantle. Enhanced Hg and MeHg levels were obtained in digestive gland of specimens from Olhao (3.1-7.4 and 2.0-5.0 mu g g(-1) respectively). Differences between areas may be partially related to Hg availability. Relationships between concentrations in mantle and digestive gland pointed to proportional increases of Hg and MeHg in tissues of specimens from Matosinhos and Cascais, but relatively constant values in mantle of individuals from Olhao (higher contamination). Se:Hg molar ratio in digestive gland was 32 and 30 in octopus from Matosinhos and Cascais, respectively, and 5.4 from Olhao. The proximity to the unit suggests demethylation as response to elevated MeHg levels in digestive gland. (C) 2010 Elsevier Ltd. All rights reserved.

Total lead and its stable isotopes in the digestive gland of Octopus vulgaris as a fingerprint, Raimundo, J., Vale C., Caetano M., Cesario R., and Moura I. , Aquatic Biology, 2009, Volume 6, Number 1-3, p.25-30, (2009) AbstractWebsite

We hypothesised that the isotopic signature of Pb in the digestive gland of the common octopus reflects the organisms' sources of Pb, and investigated whether isotopic Pb ratios are useful in characterising octopus populations. A total of 47 Octopus vulgaris individuals were captured between November 2005 and September 2006 in 2 areas of the Portuguese coast, near Matosinhos (Area A; NW coast) and Olhao (Area B; south coast), and digestive glands were analysed for total Pb and its stable isotopes. The same determinations were performed in 22 samples of surface sediments from the 2 areas. Pb concentrations in the digestive gland of specimens from Area B (2.8 to 13.0 mu g g(-1)) exceeded the values found in Area A (1.3 to 8.3 mu g g(-1)). A similar pattern was found for the isotopic Pb ratios: (206)Pb/(207)Pb was 1.173 to 1.185 for Area A and 1.165 to 1.172 for B; (206)Pb/(208)Pb was 0.476 to 0.487 for Area A and 0.318 to 0.483 for B. The different signatures of the digestive glands are in line with those observed in the surface sediments of the 2 coastal areas (e.g. (206)Pb/(207)Pb was 1.179 to 1.207 for Area A and 1.171 to 1.181 for B). However, the isotopic Pb signature of octopus was less radiogenic than that of sediments. Because octopus has a short life span (up to 24 mo) the signature reflects recent sources of Pb that have a less radiogenic signature. The Pb signature of surface sediments tends to integrate the record of the previous few years or decades, due to the frequent resuspension of the upper layer of coastal sediments. The mixing of sediments deposited during those periods results in higher isotopic Pb ratios (more radiogenic). The consistent differences between the 2 areas, in sediments and octopus, points towards the isotopic Pb signature as a possible useful tool to distinguish octopus populations.

DNA damage and metal accumulation in four tissues of feral Octopus vulgaris from two coastal areas in Portugal, Raimundo, Joana, Costa Pedro M., Vale Carlos, Costa Maria Helena, and Moura Isabel , Ecotoxicology and Environmental Safety, Oct, Volume 73, Number 7, p.1543-1547, (2010) AbstractWebsite

The alkaline comet assay has been employed for the first time to estimate the basal DNA damage in the digestive gland, gills, kidney and gonads of Octopus vulgaris. Octopuses were captured in two coastal areas adjacent to the cities of Matosinhos (N) and Olhao (S), Portugal. The area of Matosinhos is influenced by discharges of the Douro River, city of Porto, industries and intensive agriculture, while Olhao is an important fisheries port. Previous works point to contrasting metal availability in the two coastal areas. Among the analysed tissues digestive gland presented the highest levels of Zn, Cu, Cd and Pb. Tissues of specimens from Matosinhos exhibited high levels of Cd and from Olhao enhanced Pb concentrations. The DNA damages in digestive gland, gills and kidney were more accentuated in specimens from Matosinhos than from Olhao, suggesting a stronger effect of contaminants. Elevated strand breakages were registered in digestive gland, recognised for its ability to store and detoxify accumulated metals. The DNA damages in kidney, gills and gonads were lower, reflecting reduced metal accumulation or efficient detoxification. The broad variability of damages in the three tissues may also mirror tissue function, specific defences to genotoxicants and cell-cycle turnover. (C) 2010 Elsevier Inc. All rights reserved.

Sub-cellular partitioning of Zn, Cu, Cd and Pb in the digestive gland of native Octopus vulgaris exposed to different metal concentrations (Portugal), Raimundo, J., Vale C., Duarte R., and Moura I. , Science of the Total Environment, Feb 15, Volume 390, Number 2-3, p.410-416, (2008) AbstractWebsite

Cd and Pb and their sub-cellular distributions were determined in Cu Concentrations of Zn,, composite samples of digestive glands of the common octopus, Octopus vulgaris caught from two areas of the Portuguese coast characterised by contrasting metal contamination. Minor contents of Zn (1%), Cu (2%), Cd (6%) and Pb (7%) were found in the insoluble fraction, consisting of nuclei, mitochondria, lysosomes and microsome operationally separated from the whole digestive gland through a sequential centrifugation. A tendency for linear relationships between metal concentrations in nuclei, mitochondria, lysosomes and whole digestive gland was observed. These relationships suggest that despite low metal content organelles responded to the increasing accumulated metals, which means that detoxifying mechanism in cytosol was incomplete. Poorer correlations between microsome and whole digestive gland did not point to metal toxicity in the analysed compartments. However, the high accumulated Cd indicated that O. vulgaris is an important vehicle of this element to its predators in the coastal environment. (c) 2007 Elsevier B.V. All rights reserved.

Metallothioneins and trace elements in digestive gland, gills, kidney and gonads of Octopus vulgaris, Raimundo, J., Costa P. M., Vale C., Costa M. H., and Moura I. , Comparative Biochemistry and Physiology C-Toxicology & Pharmacology, Aug, Volume 152, Number 2, p.139-146, (2010) AbstractWebsite

Metallothionein-like proteins (MT) and V, Cr, Co, Ni, Zn, Cu, As and Cd were determined in digestive gland, gills, kidney and gonads of Octopus vulgaris, from the Portuguese coast. To our knowledge these are the first data on MT in octopus. High concentrations (mu g g(-1), dry mass) of Zn (48050) and Cd (555) were found in digestive gland, and MT reached levels one order of magnitude above the ones registered in wild bivalves. Significantly higher levels of MT in digestive gland and gills of specimens from A and B were in line with elevated Cd concentrations. Principal component analyses (PCA) point to MT-Cd and MT-Cr associations in digestive gland and gills. Despite the high levels of Zn in specimens from B, association with Zn was not obtained. Due to the affinity of MT to various elements, it should not be excluded the possibility of Cd replacing Zn in Zn-MT. Kidney presented higher levels of Cd, Co, Ni and As than gills and gonads, and in the case of As surpassing the levels in digestive gland, but PCA showed no relation with MT. Likewise the MT levels in gonads had no correspondence to the metal concentration variation. (C) 2010 Elsevier Inc. All rights reserved.

Association of Zn, Cu, Cd and Pb with protein fractions and sub-cellular partitioning in the digestive gland of Octopus vulgaris living in habitats with different metal levels, Raimundo, J., Vale C., Duarte R., and Moura I. , Chemosphere, Nov, Volume 81, Number 10, p.1314-1319, (2010) AbstractWebsite

Zinc Cu Cd and Pb concentrations were determined in protein fractions of digestive gland and in the whole digestive gland of Octopus vulgaris collected from two areas of the Portuguese coast Approximately 95% of Zn 99% of Cu 85-96% of Cd and 77-86% of Pb were stored in the cytosol suggesting the predominance of cytosolic proteins in the trapping these elements Gel filtration chromatography evidenced the presence of two major groups of proteins with high molecular weight (HMW 144 000-130 000 Da) and low molecular weight (LMW 11 000-6000 Da) The following metal-protein associations were found Zn was distributed between HMW and LMW Cu and Cd in LMW proteins with a minor association with HMW and Pb in HMW proteins The strong positive correlations between Cd Zn and Cu and LMW proteins point to the presence of metalloproteins with high affinity to these elements A shift was registered between the maximum of the ratio 254 280 nm and metal concentrations in the chromatographic profiles This shift may result from metallothioneins having a small participation in the metal binding or protein purification was insufficient and various LMW proteins may be interfering (C) 2010 Elsevier Ltd All rights reserved

Tungsten-containing formate dehydrogenase from Desulfovibrio gigas: metal identification and preliminary structural data by multi-wavelength crystallography, Raaijmakers, H., Teixeira S., Dias J. M., Almendra M. J., Brondino C. D., Moura I., Moura J. J., and Romao M. J. , J Biol Inorg Chem, Apr, Volume 6, Number 4, p.398-404, (2001) AbstractWebsite

The tungsten-containing formate dehydrogenase (W-FDH) isolated from Desulfovibrio gigas has been crystallized in space group P2(1), with cell parameters a = 73.8 A, b = 111.3 A, c = 156.6 A and beta = 93.7 degrees. These crystals diffract to beyond 2.0 A on a synchrotron radiation source. W-FDH is a heterodimer (92 kDa and 29 kDa subunits) and two W-FDH molecules are present in the asymmetric unit. Although a molecular replacement solution was found using the periplasmic nitrate reductase as a search model, additional phasing information was needed. A multiple-wavelength anomalous dispersion (MAD) dataset was collected at the W- and Fe-edges, at four different wavelengths. Anomalous and dispersive difference data allowed us to unambiguously identify the metal atoms bound to W-FDH as one W atom with a Se-cysteine ligand as well as one [4Fe-4S] cluster in the 92 kDa subunit, and three additional [4Fe-4S] centers in the smaller 29 kDa subunit. The D. gigas W-FDH was previously characterized based on metal analysis and spectroscopic data. One W atom was predicted to be bound to two molybdopterin guanine dinucleotide (MGD) pterin cofactors and two [4Fe-4S] centers were proposed to be present. The crystallographic data now reported reveal a selenium atom (as a Se-cysteine) coordinating to the W site, as well as two extra [4Fe-4S] clusters not anticipated before. The EPR data were re-evaluated in the light of these new results.

Gene sequence and the 1.8 A crystal structure of the tungsten-containing formate dehydrogenase from Desulfovibrio gigas, Raaijmakers, H., Macieira S., Dias J. M., Teixeira S., Bursakov S., Huber R., Moura J. J., Moura I., and Romao M. J. , Structure, Sep, Volume 10, Number 9, p.1261-72, (2002) AbstractWebsite

Desulfovibrio gigas formate dehydrogenase is the first representative of a tungsten-containing enzyme from a mesophile that has been structurally characterized. It is a heterodimer of 110 and 24 kDa subunits. The large subunit, homologous to E. coli FDH-H and to D. desulfuricans nitrate reductase, harbors the W site and one [4Fe-4S] center. No small subunit ortholog containing three [4Fe-4S] clusters has been reported. The structural homology with E. coli FDH-H shows that the essential residues (SeCys158, His159, and Arg407) at the active site are conserved. The active site is accessible via a positively charged tunnel, while product release may be facilitated, for H(+) by buried waters and protonable amino acids and for CO(2) through a hydrophobic channel.

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Purification, characterization, and preliminary crystallographic study of copper-containing nitrous oxide reductase from Pseudomonas nautica 617, Prudencio, M., Pereira A. S., Tavares P., Besson S., Cabrito I., Brown K., Samyn B., Devreese B., Van Beeumen J., Rusnak F., Fauque G., Moura J. J., Tegoni M., Cambillau C., and Moura I. , Biochemistry, Apr 11, Volume 39, Number 14, p.3899-907, (2000) AbstractWebsite

The aerobic purification of Pseudomonas nautica 617 nitrous oxide reductase yielded two forms of the enzyme exhibiting different chromatographic behaviors. The protein contains six copper atoms per monomer, arranged in two centers named Cu(A) and Cu(Z). Cu(Z) could be neither oxidized nor further reduced under our experimental conditions, and exhibits a 4-line EPR spectrum (g(x)=2.015, A(x)=1.5 mT, g(y)=2.071, A(y)=2 mT, g(z)=2.138, A(z)=7 mT) and a strong absorption at approximately 640 nm. Cu(A) can be stabilized in a reduced EPR-silent state and in an oxidized state with a typical 7-line EPR spectrum (g(x)=g(y)= 2.021, A(x) = A(y)=0 mT, g(z) = 2.178, A(z)= 4 mT) and absorption bands at 480, 540, and approximately 800 nm. The difference between the two purified forms of nitrous oxide reductase is interpreted as a difference in the oxidation state of the Cu(A) center. In form A, Cu(A) is predominantly oxidized (S = (1)/(2), Cu(1.5+)-Cu(1.5+)), while in form B it is mostly in the one-electron reduced state (S = 0, Cu(1+)-Cu(1+)). In both forms, Cu(Z) remains reduced (S = 1/2). Complete crystallographic data at 2.4 A indicate that Cu(A) is a binuclear site (similar to the site found in cytochrome c oxidase) and Cu(Z) is a novel tetracopper cluster [Brown, K., et al. (2000) Nat. Struct. Biol. (in press)]. The complete amino acid sequence of the enzyme was determined and comparisons made with sequences of other nitrous oxide reductases, emphasizing the coordination of the centers. A 10.3 kDa peptide copurified with both forms of nitrous oxide reductase shows strong homology with proteins of the heat-shock GroES chaperonin family.

Isolation and characterization of a rubredoxin and an (8Fe-8S) ferredoxin from Desulfuromonas acetoxidans, Probst, I., Moura J. J., Moura I., Bruschi M., and Legall J. , Biochim Biophys Acta, Apr 11, Volume 502, Number 1, p.38-44, (1978) AbstractWebsite

A two cluster (4Fe-4S) ferredoxin and a rubredoxin have been isolated from the sulfur-reducing bacterium Desulfuromonas acetoxidans. Their amino acid compositions are reported and compared to those of other iron-sulfur proteins. The ferredoxin contains 8 cysteine residues, 8 atoms of iron and 8 atoms of labile sulfur per molecule; its minimum molecular weight is 6163. The protein exhibits an abosrbance ratio of A385/A283 = 0.74. Storage results in a bleaching of the chromophore; the denatured ferredoxin is reconstitutable with iron and sulfide. The instability temperature is 52 degrees C. The rubredoxin does not differ markedly from rubredoxins from other anaerobic bacteria.

Identification of three classes of hydrogenase in the genus, Desulfovibrio, Prickril, Benet C., He Shao-Hua, Li Ching, Menon Nanda, Choi Eui-Sung, Przybyla Alan E., DerVartanian Daniel V., Peck Jr Harry D., Fauque Guy, Legall Jean, Teixeira Miguel, Moura Isabel, Moura Jose J. G., Patil Daulat, and Huynh Boi H. , Biochemical and Biophysical Research Communications, Volume 149, Number 2, p.369-377, (1987) AbstractWebsite
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Mossbauer characterization of Paracoccus denitrificans cytochrome c peroxidase. Further evidence for redox and calcium binding-induced heme-heme interaction, Prazeres, S., Moura J. J., Moura I., Gilmour R., Goodhew C. F., Pettigrew G. W., Ravi N., and Huynh B. H. , J Biol Chem, Oct 13, Volume 270, Number 41, p.24264-9, (1995) AbstractWebsite

Mossbauer and electron paramagnetic resonance (EPR) spectroscopies were used to characterize the diheme cytochrome c peroxidase from Paracoccus denitrificans (L.M.D. 52.44). The spectra of the oxidized enzyme show two distinct spectral components characteristic of low spin ferric hemes (S = 1/2), revealing different heme environments for the two heme groups. The Paracoccus peroxidase can be non-physiologically reduced by ascorbate. Mossbauer investigation of the ascorbate-reduced peroxidase shows that only one heme (the high potential heme) is reduced and that the reduced heme is diamagnetic (S = 0). The other heme (the low potential heme) remains oxidized, indicating that the enzyme is in a mixed valence, half-reduced state. The EPR spectrum of the half-reduced peroxidase, however, shows two low spin ferric species with gmax = 2.89 (species I) and gmax = 2.78 (species II). This EPR observation, together with the Mossbauer result, suggests that both species are arising from the low potential heme. More interestingly, the spectroscopic properties of these two species are distinct from that of the low potential heme in the oxidized enzyme, providing evidence for heme-heme interaction induced by the reduction of the high potential heme. Addition of calcium ions to the half-reduced enzyme converts species II to species I. Since calcium has been found to promote peroxidase activity, species I may represent the active form of the peroxidatic heme.

Control of the spin state of the peroxidatic haem by calcium ions in cytochrome c peroxidase from Paracoccus denitrificans: A 1H NMR study, Prazeres, Susana, Moura Isabel, Moura José J. G., Gilmour Raymond, Goodhew Celia F., and Pettigrew Graham W. , Magnetic Resonance in Chemistry, Volume 31, Number 13, p.S68-S72, (1993) AbstractWebsite

Cytochrome c peroxidase from Paracoccus denitrificans LMD 52.44 was recently identified. The enzyme contains two c-type haems: one is reducible physiologically by cytochrome c550 from the same organism or non-physiologically by ascorbate (high-potential haem) and the other by dithionite (low-potential haem). The enzymatically active form of the peroxidase is the half-reduced enzyme state, in which the high-potential haem is in the iron(II) state and the low-potential haem is in the iron(III) state. It was found that the two haems interact and that the enzyme binds calcium ions near the haem sites which are necessary to promote its activation. In the oxidized form, the high-potential haem is in a high-spin and the low-potential haem is in a low-spin state. The half-reduction of the enzyme with ascorbate-diaminodurol changes the high-potential haem (high-spin) into a low-spin state and the low-potential haem converts from a low- into a high-spin state. This high-spin conversion of the low-potential haem is induced by the presence of calcium ions. These processes of reduction and spin state change can be easily resolved in time by removing the calcium from the enzyme using EDTA, facilitating the observation of the intermediate form by NMR.

REDOX AND SPIN-STATE CONTROL OF THE ACTIVITY OF A DIHEME CYTOCHROME-C PEROXIDASE - SPECTROSCOPIC STUDIES, Prazeres, S., Moura I., Gilmour R., Pettigrew G., Ravi N., and Huynh B. H. , Nuclear Magnetic Resonance of Paramagnetic Macromolecules, Volume 457, p.141-163, (1995) Abstract
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Two azurins with unusual redox and spectroscopic properties isolated from the Pseudomonas chlororaphis strains DSM 50083(T) and DSM 50135, Pinho, D., Besson S., Brondino C. D., Pereira E., de Castro B., and Moura I. , Journal of Inorganic Biochemistry, Feb, Volume 98, Number 2, p.276-286, (2004) AbstractWebsite

Two azurins (Az624 and Az626) were isolated from the soluble extract of two strains of Pseudomonas chlororaphis, DSM 50083(T) and DSM 50135, respectively, grown under microaerobic conditions with nitrate as final electron acceptor. The azurins, purified to electrophoretic homogeneity in three chromatographic steps, exhibit several peculiar properties. They have high reduction potentials and lower pI than most azurins described in the literature. As previously observed for Pseudomonas aeruginosa azurin, their reduction potentials are pH-dependent, but the pK values of their oxidized forms are lower, which suggests that deeper structural changes are associated with the oxidation process of these novel azurins. A hitherto undescribed pH-dependence of the diffusion coefficient was observed in Az624, that could be caused either by conformational changes, or by the formation of supramolecular aggregates associated with a protonation process. Both azurins exhibit axial X-band electron paramagnetic resonance spectra in frozen solution showing a typical hyperfine with the copper nucleus (I = 3/2) and a well-resolved superhyperfine structure with two equivalent N-14 nucleus (I = 1), which is not usually observed for azurins from other species. (C) 2003 Elsevier Inc. All rights reserved.

Copper-containing nitrite reductase from Pseudomonas chlororaphis DSM 50135 - Evidence for modulation of the rate of intramolecular electron transfer through nitrite binding to the type 2 copper center, Pinho, D., Besson S., Brondino C. D., de Castro B., and Moura I. , European Journal of Biochemistry, Jun, Volume 271, Number 12, p.2361-2369, (2004) AbstractWebsite

The nitrite reductase (Nir) isolated from Pseudomonas chlororaphis DSM 50135 is a blue enzyme, with type 1 and type 2 copper centers, as in all copper-containing Nirs described so far. For the first time, a direct determination of the reduction potentials of both copper centers in a Cu-Nir was performed: type 2 copper (T2Cu), 172 mV and type 1 copper (T1Cu), 298 mV at pH 7.6. Although the obtained values seem to be inconsistent with the established electron-transfer mechanism, EPR data indicate that the binding of nitrite to the T2Cu center increases its potential, favoring the electron-transfer process. Analysis of the EPR spectrum of the turnover form of the enzyme also suggests that the electron-transfer process between T1Cu and T2Cu is the fastest of the three redox processes involved in the catalysis: (a) reduction of T1Cu; (b) oxidation of T1Cu by T2Cu; and (c) reoxidation of T2Cu by NO2-. Electrochemical experiments show that azurin from the same organism can donate electrons to this enzyme.

Isolation and spectroscopic characterization of the membrane-bound nitrate reductase from Pseudomonas chlororaphis DSM 50135, Pinho, D., Besson S., Silva P. J., de Castro B., and Moura I. , Biochimica Et Biophysica Acta-General Subjects, May 25, Volume 1723, Number 1-3, p.151-162, (2005) AbstractWebsite

A nitrate reductase was solubilized with Triton X-100 from the membranes of Pseudomonas chlororaphis DSM 50135 grown microaerobically in the presence of nitrate. Like other membrane-bound nitrate reductases, it contains three subunits, of 129, 66 (64) and 24 kDa, referred to in the literature as alpha, beta and gamma, respectively. Electrocatalytic studies revealed that only the membrane-bound, not the solubilized form of the enzyme, can accept electrons from a menaquinone analog, menadione, whereas both forms can accept electrons from methylviologen. The isolated enzyme possesses several iron-sulfur clusters and a molybdopterin guanine dinucleotide active center. The iron-sulfur clusters can be grouped in two classes according to their redox properties, the high-potential and low-potential clusters. In the as-isolated enzyme, two forms of the molybdenum center, high- and low-pH, are detectable by electron paramagnetic resonance spectroscopy. The low-pH form shows a hyperfine splitting due to a proton, suggesting the presence of an -OHx ligand. Dithionite reduces the Mo(V) center to Mo(W) and subsequent reoxidization with nitrate originates a new Mo(V) signal, identical to the oxidized low-pH form but lacking its characteristic hyperfine splitting. The isolated preparation also contains heme c (in a sub-stoichiometric amount) with the ability to relay electrons to the molybdenum center, suggesting that this nitrate reductase may contain heme c instead of the heme b usually found in this class of enzymes. (c) 2005 Elsevier B.V. All rights reserved.

The structure of an electron transfer complex containing a cytochrome c and a peroxidase, Pettigrew, G. W., Prazeres S., Costa C., Palma N., Krippahl L., Moura I., and Moura J. J. , J Biol Chem, Apr 16, Volume 274, Number 16, p.11383-9, (1999) AbstractWebsite

Efficient biological electron transfer may require a fluid association of redox partners. Two noncrystallographic methods (a new molecular docking program and 1H NMR spectroscopy) have been used to study the electron transfer complex formed between the cytochrome c peroxidase (CCP) of Paracoccus denitrificans and cytochromes c. For the natural redox partner, cytochrome c550, the results are consistent with a complex in which the heme of a single cytochrome lies above the exposed electron-transferring heme of the peroxidase. In contrast, two molecules of the nonphysiological but kinetically competent horse cytochrome bind between the two hemes of the peroxidase. These dramatically different patterns are consistent with a redox active surface on the peroxidase that may accommodate more than one cytochrome and allow lateral mobility.

Electron transfer complexes of cytochrome c peroxidase from Paracoccus denitrificans containing more than one cytochrome, Pettigrew, G. W., Pauleta S. R., Goodhew C. F., Cooper A., Nutley M., Jumel K., Harding S. E., Costa C., Krippahl L., Moura I., and Moura J. , Biochemistry, Oct 21, Volume 42, Number 41, p.11968-81, (2003) AbstractWebsite

According to the model proposed in previous papers [Pettigrew, G. W., Prazeres, S., Costa, C., Palma, N., Krippahl, L., and Moura, J. J. (1999) The structure of an electron-transfer complex containing a cytochrome c and a peroxidase, J. Biol. Chem. 274, 11383-11389; Pettigrew, G. W., Goodhew, C. F., Cooper, A., Nutley, M., Jumel, K., and Harding, S. E. (2003) Electron transfer complexes of cytochrome c peroxidase from Paracoccus denitrificans, Biochemistry 42, 2046-2055], cytochrome c peroxidase of Paracoccus denitrificans can accommodate horse cytochrome c and Paracoccus cytochrome c(550) at different sites on its molecular surface. Here we use (1)H NMR spectroscopy, analytical ultracentrifugation, molecular docking simulation, and microcalorimetry to investigate whether these small cytochromes can be accommodated simultaneously in the formation of a ternary complex. The pattern of perturbation of heme methyl and methionine methyl resonances in binary and ternary solutions shows that a ternary complex can be formed, and this is confirmed by the increase in the sedimentation coefficient upon addition of horse cytochrome c to a solution in which cytochrome c(550) fully occupies its binding site on cytochrome c peroxidase. Docking experiments in which favored binary solutions of cytochrome c(550) bound to cytochrome c peroxidase act as targets for horse cytochrome c and the reciprocal experiments in which favored binary solutions of horse cytochrome c bound to cytochrome c peroxidase act as targets for cytochrome c(550) show that the enzyme can accommodate both cytochromes at the same time on adjacent sites. Microcalorimetric titrations are difficult to interpret but are consistent with a weakened binding of horse cytochrome c to a binary complex of cytochrome c peroxidase and cytochrome c(550) and binding of cytochrome c(550) to the cytochrome c peroxidase that is affected little by the presence of horse cytochrome c in the other site. The presence of a substantial capture surface for small cytochromes on the cytochrome c peroxidase has implications for rate enhancement mechanisms which ensure that the two electrons required for re-reduction of the enzyme after reaction with hydrogen peroxide are delivered efficiently.

The surface-charge asymmetry and dimerisation of cytochrome c550 from Paracoccus denitrificans--implications for the interaction with cytochrome c peroxidase, Pettigrew, G. W., Gilmour R., Goodhew C. F., Hunter D. J., Devreese B., Van Beeumen J., Costa C., Prazeres S., Krippahl L., Palma P. N., Moura I., and Moura J. J. , Eur J Biochem, Dec 1, Volume 258, Number 2, p.559-66, (1998) AbstractWebsite

The implications of the dimeric state of cytochrome c550 for its binding to Paracoccus cytochrome c peroxidase and its delivery of the two electrons required to restore the active enzyme during catalysis have been investigated. The amino acid sequence of cytochrome c550 of Paracoccus denitrificans strain LMD 52.44 was determined and showed 21 differences from that of strain LMD 22.21. Based on the X-ray structure of the latter, a structure for the cytochrome c550 monomer from strain 52.44 is proposed and a dipole moment of 945 debye was calculated with an orientation close to the exposed haem edge. The behaviour of the cytochrome on molecular-exclusion chromatography is indicative of an ionic strength-dependent monomer (15 kDa)/dimer (30 kDa) equilibrium that can also be detected by 1H-NMR spectroscopy. The apparent mass of 50 kDa observed at very low ionic strength was consistent with the presence of a strongly asymmetric dimer. This was confirmed by cross-linking studies, which showed that a cross-linked species of mass 30 kDa on SDS behaved with an apparent mass of 50 kDa on molecular-exclusion chromatography. A programme which carried out and evaluated molecular docking of two monomers to give a dimer generated a most probable dimer in which the monomer dipoles lay almost antiparallel to each other. The resultant dipole moment of the dimer is therefore small. Although this finding calls into question the possibility of preorientation of a strongly asymmetrically charged cytochrome as it collides with a redox partner, the stoichiometry of complex formation with cytochrome c peroxidase as studied by 1H-NMR spectroscopy shows that it is the monomer that binds.

Oxovanadium(IV) and amino acids—VI. The systems glycylglycine and glycylglycylglycine + VO2+; a potentiometric and spectroscopic study, Pessoa, Costa J., Luz S. M., Duarte R., Moura J. J. G., and Gillard R. D. , Polyhedron, Volume 12, Number 23, p.2857-2867, (1993) AbstractWebsite
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Oxovanadium(IV) complexes of the dipeptides glycyl-L-aspartic acid, L-aspartylglycine and related ligands; a spectroscopic and potentiometric study, Pessoa, J. C., Gajda T., Gillard R. D., Kiss T., Luz S. M., Moura J. J. G., Tomaz I., Telo J. P., and Torok I. , Journal of the Chemical Society-Dalton Transactions, Nov 7, Number 21, p.3587-3600, (1998) AbstractWebsite

The equilibria in the systems VO2+ + L (L = Gly-L-Asp, L-Asp-Gly, N-acetyl-L-aspartic acid or succinic acid) have been studied at 25 degrees C and 0.2 mol dm(3) K(CI) medium by a combination of potentiometric and spectroscopic methods (ESR, circular dichroism and visible absorption). Formation constants were calculated from pH-metric data with total oxovanadium(Iv) concentrations of(0.6-4) x 10(-3) mol dm(-3) and ligand-to-metal (L:M) ratios of 2-8 (AspGly) or 4-15: 1 (other systems). The position of the Asp residue in the peptide chain affects the co-ordination mode of the ligands: while in the GlyAsp system bis complexes start to form at pH less than 2, for AspGly only 1 : 1 complexes form, with relatively high CD signal. The co-ordination behaviour of N-acetyl-L-aspartic and succinic acids is similar. The results of potentiometric and spectroscopic methods are self consistent. Isomeric structures are discussed for each stoichiometry proposed and the results compared with those for L-aspartic acid and dipeptides with non-coordinating side chains.

Characterization of representative enzymes from a sulfate reducing bacterium implicated in the corrosion of steel, Pereira, A. S., Franco R., Feio M. J., Pinto C., Lampreia J., Reis M. A., Calvete J., Moura I., Beech I., Lino A. R., and Moura J. J. , Biochem Biophys Res Commun, Apr 16, Volume 221, Number 2, p.414-21, (1996) AbstractWebsite

This communication reports the isolation, purification and characterization of key enzymes involved in dissimilatory sulfate reduction of a sulfate reducing bacterium classified as Desulfovibrio desulfuricans subspecies desulfuricans New Jersey (NCIMB 8313) (Ddd NJ). The chosen strain, originally recovered from a corroding cast iron heat exchanger, was grown in large scale batch cultures. Physico-chemical and spectroscopic studies of the purified enzymes were carried out. These analyses revealed a high degree of similarity between proteins isolated from the DddNJ strain and the homologous proteins obtained from Desulfomicrobium baculatus Norway 4. In view of the results obtained, taxonomic reclassification of Desulfovibrio desulfuricans subspecies desulfuricans New Jersey (NCIMB 8313) into Desulfomicrobium baculatus (New Jersey) is proposed.