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2001
de Ricqlès, A., O. Mateus, MT Antunes, and P. Taquet. "Histomorphogenesis of embryos of Upper Jurassic theropods from Lourinhã (Portugal) | Histomorphogenèse du squelette d'embryons de dinosaures théropodes du Jurassique supérieur de Lourinhã (Portugal)." Comptes Rendus de l'Academie de Sciences - Serie IIa: Sciences de la Terre et des Planetes. 332 (2001): 647-656. Abstract
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Pereira, AS, P. Tavares, I. Moura, JJG Moura, and BH HUYNH. "Mossbauer characterization of the iron-sulfur clusters in Desulfovibrio vulgaris hydrogenase." Journal of the American Chemical Society. 123 (2001): 2771-2782. AbstractWebsite

The periplasmic hydrogenase of Desulfovibrio vulgaris (Hildenbourough) is an all Fe-containing hydrogenase. It contains two ferredoxin type [4Fe-4S] clusters, termed the F clusters, and a catalytic H cluster. Recent X-ray crystallographic studies on two Fe hydrogenases revealed that the H cluster is composed of two sub-clusters, a [4Fe-4S] cluster ([4Fe-4S]H) and-a binuclear Fe cluster ([2Fe]H), bridged by a cysteine sulfur. The aerobically purified D. vulgaris hydrogenase is stable in air. It is inactive and requires reductive activation. Upon reduction, the enzyme becomes sensitive to O(2) indicating that the reductive activation process is irreversible. Previous EPR investigations showed that upon reoxidation (under argon) the H cluster exhibits a rhombic EPR signal that is not seen in the as-purified enzyme, suggesting a conformational change in association with the reductive activation. For the purpose of gaining more information on the electronic properties of this unique H cluster and to understand further the reductive activation process, variable-temperature and variable-field Mossbauer spectroscopy has been used to characterize the Fe-S clusters in D. vulgaris hydrogenase poised at different redox states generated during a reductive titration, and in the GO-reacted enzyme. The data were successfully decomposed into spectral components corresponding to the F and H clusters,and characteristic parameters describing the electronic and magnetic properties of the F and H clusters were obtained. Consistent with the X-ray crystallographic results, the spectra of the H cluster can be understood as originating from an exchange coupled [4Fe-4S] - [2Fe] system. In particular, detailed analysis of the data reveals that the reductive activation begins with reduction of the [4Fe-4S]H cluster from the 2+ to the If state, followed by transfer of the reducing equivalent from the [4Fe-4S]H subcluster to the binuclear [2Fe]H subcluster. The results also reveal that binding of exogenous CO to the H cluster affects significantly the exchange coupling between the [4Fe-4S]H and the [2Fe]H subclusters. Implication of such a CO binding effect is discussed.

Martins, R., H. Aguas, A. Cabrita, P. Tonello, V. Silva, I. Ferreira, E. Fortunato, and L. Guimaraes. "New nanostructured silicon films grown by PECVD technique under controlled powder formation conditions." Solar energy. 69 (2001): 263-269. Abstract
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Martins, R., H. Aguas, A. Cabrita, P. Tonello, V. Silva, I. Ferreira, E. Fortunato, and L. Guimarães. "New nanostructured silicon films grown by PECVD technique under controlled powder formation conditions." Solar energy. 69 (2001): 263-269. Abstract
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Cabrito, I., AS Pereira, P. Tavares, S. Besson, C. Brondino, B. Hoffman, K. Brown, M. Tegoni, C. Cambillau, JJG Moura, and I. Moura. "Nitrous oxide reductase (N2OR) from Pseudomonas nautica 617." Journal of Inorganic Biochemistry. 86 (2001): 165. AbstractWebsite
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Franco, R., AS Pereira, P. Tavares, A. Mangravita, MJ Barber, I. Moura, and GC Ferreira. "Substitution of murine ferrochelatase glutamate-287 with glutamine or alanine leads to porphyrin substrate-bound variants." Biochemical Journal. 356 (2001): 217-222. AbstractWebsite

Ferrochelatase (EC 4.99.1.1) is the terminal enzyme of the haem biosynthetic pathway and catalyses iron chelation into the protoporphyrin IX ring. Glutamate-287 (E287) of murine mature ferrochelatase is a conserved residue in all known sequences of ferrochelatase, is present at the active site of the enzyme, as inferred from the Bacillus subtilis ferrochelatase three-dimensional structure, and is critical for enzyme activity. Substitution of E287 with either glutamine (Q) or alanine (A) yielded variants with lower enzymic activity than that of the wild-type ferrochelatase and with different absorption spectra from the wild-type enzyme. In contrast to the wild-type enzyme, the absorption spectra of the variants indicate that these enzymes, as purified, contain protoporphyrin IX. Identification and quantification of the porphyrin bound to the E287-directed variants indicate that approx. 80% of the total porphyrin corresponds to protoporphyrin IX. Significantly, rapid stopped-flow experiments of the E287A and E287Q Variants demonstrate that reaction with Zn2+ results in the formation of bound Zn-protoporphyrin IX, indicating that the endogenously bound protoporphyrin IX can be used as a substrate. Taken together, these findings suggest that the structural strain imposed by ferrochelatase on the porphyrin substrate as a critical step in the enzyme catalytic mechanism is also accomplished by the E287A and E287Q variants, but without the release of the product. Thus E287 in murine ferrochelatase appears to be critical For the catalytic process by controlling the release of the product.

Cabrito, I., AS Pereira, P. Tavares, S. Besson, C. Brondino, B. Hoffman, K. Brown, M. Tegoni, C. Cambillau, JJG Moura, and I. Moura. "{Nitrous oxide reductase (N2OR) from Pseudomonas nautica 617}." Journal Of Inorganic Biochemistry. 86 (2001): 165.
Carrapa, R. T., O. M. N. Teodoro, and A. M. C. Moutinho. "{Positive and negative ion emission from perfluorinated}." Chemical Physics Letters. 336 (2001): 431-438. Abstract

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Teodoro, O. M. N. D., and A. M. C. Moutinho. "{Simulation of sputtering induced by light ions}." Surface Science. 482-485 (2001): 1392-1398. Abstract

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Franco, R., AS Pereira, P. Tavares, A. Mangravita, MJ Barber, I. Moura, and GC Ferreira. "{Substitution of murine ferrochelatase glutamate-287 with glutamine or alanine leads to porphyrin substrate-bound variants}." Biochemical Journal. 356 (2001): 217-222. Abstract
Ferrochelatase (EC 4.99.1.1) is the terminal enzyme of the haem biosynthetic pathway and catalyses iron chelation into the protoporphyrin IX ring. Glutamate-287 (E287) of murine mature ferrochelatase is a conserved residue in all known sequences of ferrochelatase, is present at the active site of the enzyme, as inferred from the Bacillus subtilis ferrochelatase three-dimensional structure, and is critical for enzyme activity. Substitution of E287 with either glutamine (Q) or alanine (A) yielded variants with lower enzymic activity than that of the wild-type ferrochelatase and with different absorption spectra from the wild-type enzyme. In contrast to the wild-type enzyme, the absorption spectra of the variants indicate that these enzymes, as purified, contain protoporphyrin IX. Identification and quantification of the porphyrin bound to the E287-directed variants indicate that approx. 80% of the total porphyrin corresponds to protoporphyrin IX. Significantly, rapid stopped-flow experiments of the E287A and E287Q Variants demonstrate that reaction with Zn2+ results in the formation of bound Zn-protoporphyrin IX, indicating that the endogenously bound protoporphyrin IX can be used as a substrate. Taken together, these findings suggest that the structural strain imposed by ferrochelatase on the porphyrin substrate as a critical step in the enzyme catalytic mechanism is also accomplished by the E287A and E287Q variants, but without the release of the product. Thus E287 in murine ferrochelatase appears to be critical For the catalytic process by controlling the release of the product.
2000
Dias, JM, CA Cunha, S. Teixeira, G. Almeida, C. Costa, J. Lampreia, JJG Moura, I. Moura, and MJ Romao. "Crystallization and preliminary X-ray analysis of a membrane-bound nitrite reductase from Desulfovibrio desulfuricans ATCC 27774." ACTA CRYSTALLOGRAPHICA SECTION D-BIOLOGICAL CRYSTALLOGRAPHY. 56 (2000): 215-217. Abstract
{Nitrite reductase from the sulfate-reducing bacterium Desulfovibrio desulfuricans ATCC 27774 is a multihaem (type c) membrane-bound enzyme that catalyzes the dissimilatory conversion of nitrite to ammonia. Crystals of the oxidized form of this enzyme were obtained using PEG and CaCl2 as precipitants in the presence of 3-(decylmethylammonium)propane-1-sulfonate and belong to the space group P2(1)2(1)2(1), With unit-cell parameters a = 78.94
Amaral, P., M. W. Trosset, and P. Barahona Correcting an inconsistent system of linear inequalities by nonlinear programming. Houston, TX 77005: Department of Computational & Applied Mathematics, Rice University, 2000. Abstract
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Amaral, P., M. W. Trosset, and P. Barahona Correcting an Inconsistent System of Linear Inequalities by Nonlinear Programming. TX 77005, Houston: Department of Computational & Applied Mathematics, Rice University, 2000. Abstract
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Águas, Hugo MB, Elvira M. C. Fortunato, Ana M. Cabrita, Vitor Silva, Pedro MN Tonello, and Rodrigo F. P. Martins. "Correlation Between Surface/Interface States and the Performance of MIS Structures." MRS Proceedings. Vol. 609. Cambridge University Press, 2000. A12-1. Abstract
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Brown, K., M. Tegoni, M. Prudencio, AS Pereira, S. Besson, J. J. Moura, I. Moura, and C. Cambillau. "A novel type of catalytic copper cluster in nitrous oxide reductase." Nature Structural Biology. 7 (2000): 191-195. AbstractWebsite

Nitrous oxide (N(2)O) is a greenhouse gas, the third most significant contributor to global warming. As a key process for N(2)O elimination from the biosphere, N(2)O reductases catalyze the two-electron reduction of N(2)O to N(2). These 2 x 65 kDa copper enzymes are thought to contain a CuA electron entry site, similar to that of cytochrome c oxidase, and a CuZ catalytic center. The copper anomalous signal was used to solve the crystal structure of N(2)O reductase from Pseudomonas nautica by multiwavelength anomalous dispersion, to a resolution of 2.4 Angstrom. The structure reveals that the CuZ center belongs to a new type of metal cluster, in which four copper ions are liganded by seven histidine residues. N(2)O binds to this center via a single copper ion. The remaining copper ions might act as an electron reservoir, assuring a fast electron transfer and avoiding the formation of dead-end products.

Fortunato, E., P. Teodoro, V. Silva, I. Ferreira, Y. Nunes, N. Guimarães, F. Soares, F. Giuliani, G. Popovic, and W. Brener. "Performances of an optical ruler based on one-dimensional hydrogenated amorphous Si position-sensitive detectors produced using different metal contacts." Philosophical Magazine B. 80.4 (2000): 765-774. Abstract
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Prudencio, M., AS Pereira, P. Tavares, S. Besson, I. Cabrito, K. Brown, B. Samyn, B. Devreese, J. VanBeeumen, F. Rusnak, G. Fauque, JJG Moura, M. Tegoni, C. Cambillau, and I. Moura. "Purification, characterization, and preliminary crystallographic study of copper-containing nitrous oxide reductase from Pseudomonas nautica 617." Biochemistry. 39 (2000): 3899-3907. 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 CUA and Cut. Cut 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 similar to 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 T, g(z) =0.178, A(z) = 4 mT) and absorption bands at 480, 540, and similar to 800 nm. The difference between the two purified forms of nitrous oxide reductase is interpreted as a difference in the oxidation state of the CuA center. In form A, CUA is predominantly oxidized (S = 1/2, Cu1.5+-Cu1.5+), while in form B it is mostly in the one-electron reduced state (S = 0, Cu1+-Cu1+). In both forms, Cu-Z remains reduced (S = 1/2). Complete crystallographic data at 2.4 Angstrom 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 ai. (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.

Wengenack, NL, H. Lopes, MJ Kennedy, P. Tavares, AS Pereira, I. Moura, JJG Moura, and F. Rusnak. "Redox potential measurements of the Mycobacterium tuberculosis heme protein KatG and the isoniazid-resistant enzyme KatG(S315T): Insights into isoniazid activation." Biochemistry. 39 (2000): 11508-11513. AbstractWebsite

Mycobacterium tuberculosis KatG is a multifunctional heme enzyme responsible for activation of the antibiotic isoniazid. A KatG(S315T) point mutation is found in >50% of isoniazid-resistant clinical isolates. Since isoniazid activation is thought to involve an oxidation reaction, the redox potential of KatG was determined using cyclic voltammetry, square wave voltammetry, and spectroelectrochemical titrations. Isoniazid activation may proceed via a cytochrome P450-like mechanism. Therefore, the possibility that substrate binding by KatG leads to an increase in the heme redox potential and the possibility that KatG(S315T) confers isoniazid resistance by altering the redox potential were examined. Effects of the heme spin state on the reduction potentials of KatG and KatG(S315T) were also determined. Assessment of the Fe3+/Fe2+ couple gave a midpoint potential of ca. -50 mV for both KatG and KatG(S315T). In contrast to cytochrome P450s, addition of substrate had no significant effect on either the KatG or KatG(S315T) redox potential. Conversion of the heme to a low-spin configuration resulted in a -150 to -200 mV shift of the KatG and KatG(S315T) redox potentials. These results suggest that isoniazid resistance conferred by KatG(S315T) is not mediated through changes in the heme redox potential. The redox potentials of isoniazid were also determined using cyclic and square wave voltammetry, and the results provide evidence that the ferric KatG and KatG(S315T) midpoint potentials are too low to promote isoniazid oxidation without formation of a high-valent enzyme intermediate such as compounds I and IT or oxyferrous KatG.

Aguas, Hugo, Ana Cabrita, Pedro Tonello, Patricia Nunes, Elvira Fortunato, and Rodrigo Martins. "Two Step Process for the Growth of a Thin Layer of Silicon Dioxide for Tunneling Effect Applications." MRS Proceedings. Vol. 619. Cambridge University Press, 2000. 179. Abstract
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Prudencio, M., A. Pereira, P. Tavares, S. Besson, I. Cabrito, K. Brown, B. Samyn, B. Devreese, J. VanBeeumen, F. Rusnak, G. Fauque, J. Moura, M. Tegoni, C. Cambillau, and I. Moura. "{Purification, characterization, and preliminary crystallographic study of copper-containing nitrous oxide reductase from Pseudomonas nautica 617}." Biochemistry. 39 (2000): 3899-3907.
Wengenack, NL, H. Lopes, MJ Kennedy, P. Tavares, AS Pereira, I. Moura, JJG Moura, and F. Rusnak. "{Redox potential measurements of the Mycobacterium tuberculosis heme protein KatG and the isoniazid-resistant enzyme KatG(S315T): Insights into isoniazid activation}." Biochemistry. 39 (2000): 11508-11513. Abstract
Mycobacterium tuberculosis KatG is a multifunctional heme enzyme responsible for activation of the antibiotic isoniazid. A KatG(S315T) point mutation is found in >50% of isoniazid-resistant clinical isolates. Since isoniazid activation is thought to involve an oxidation reaction, the redox potential of KatG was determined using cyclic voltammetry, square wave voltammetry, and spectroelectrochemical titrations. Isoniazid activation may proceed via a cytochrome P450-like mechanism. Therefore, the possibility that substrate binding by KatG leads to an increase in the heme redox potential and the possibility that KatG(S315T) confers isoniazid resistance by altering the redox potential were examined. Effects of the heme spin state on the reduction potentials of KatG and KatG(S315T) were also determined. Assessment of the Fe3+/Fe2+ couple gave a midpoint potential of ca. -50 mV for both KatG and KatG(S315T). In contrast to cytochrome P450s, addition of substrate had no significant effect on either the KatG or KatG(S315T) redox potential. Conversion of the heme to a low-spin configuration resulted in a -150 to -200 mV shift of the KatG and KatG(S315T) redox potentials. These results suggest that isoniazid resistance conferred by KatG(S315T) is not mediated through changes in the heme redox potential. The redox potentials of isoniazid were also determined using cyclic and square wave voltammetry, and the results provide evidence that the ferric KatG and KatG(S315T) midpoint potentials are too low to promote isoniazid oxidation without formation of a high-valent enzyme intermediate such as compounds I and IT or oxyferrous KatG.
1999
Allain, Ronan, Philippe Taquet, Bernard Battail, Jean Dejax, Philippe Richir, Monette Veran, Franck Limon-Duparcmeur, R. Vacant, O. Mateus, Phouvong Sayarath, Bounxou Khenthavong, and Sitha Phouyavong. "Un nouveau genre de dinosaure sauropode de la formation des Gres superieurs (Aptien-Albien) du Laos." Comptes Rendus de l'Academie des Sciences - Series IIA - Earth and Planetary Science. 329 (1999): 609-616. Abstractallain_taquet_battail_dejax_richir_mateus_et_al_1999_un_nouveau_genre_de_dinosaure_sauropode_de_la_formation_des_gres_superieurs_aptien-albien_du_laos.pdfWebsite

The partly-articulated postcranial remains of two sauropod skeletons recently found in Tang Vay (Savannakhet Province, Laos) are assigned to the species Tangvayosaurus hoffeti (nov. gen., nov. sp.). The derived characters present in the new material confirm the presence of titanosaurs in South East Asia at the end of the Early Cretaceous, but are not consistent with its placement within Titanosaurus genus as first done by Hoffet in 1942. All of the material relative to this species is therefore referred to a new genus: Tangvayosaurus. Tangvayosaurus and the Thai genus Phuwiangosaurus have strong affinities and are considered as primitive titanosaurs.

Allain, Ronan, Philippe Taquet, Bernard Battail, Jean Dejax, Philippe Richir, Monette Véran, Franck Limon-Duparcmeur, Renaud Vacant, Octavio Mateus, Phouvong Sayarath, Bounxou Khenthavong, and Sitha Phouyavong. "Un nouveau genre de dinosaure sauropode de la formation des Grès supérieurs (Aptien-Albien) du Laos." Comptes Rendus de l{\textquotesingle}Académie des Sciences - Series {IIA} - Earth and Planetary Science. 329 (1999): 609-616. AbstractWebsite
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Silva, J. a M. C., C. M. R. Henriques, O. M. N. D. Teodoro, and A. M. C. Moutinho. "{The negative ionization of sputtered carbon atoms}." Applied Surface Science. 144-145 (1999): 208-211. AbstractWebsite

The formation and survival probability of negative carbon ions sputtered from a graphite sample was determined. The energy distribution of Cy ions was measured experimentally and the energy distribution of all sputtered carbon atoms was obtained from a computer simulation with the program TRIM.SP. From the two distributions, we obtained the probability that a carbon atom would capture an electron from the graphite and subsequently survive as it moves away from the surface. Ż. The results show two different situations. At low energy below 25 eV , the sputtered particles are all negatively ionized when the affinity level crosses the graphite Fermi level and afterwards, the population decay follows a semi-classical rate equation. Ż.At higher energy above 25 eV , a velocity-dependent fraction reaches the crossing distance as neutral atoms

Nunes, Isabel L., and Rita A. Ribeiro Fuzzy evaluation module of ERGO_X. Eds. C. Carlsson, and F. Tétard. Intelligent Systems and Active DSS - IFORS SPC9. Turku - Finlândia, 1999. Abstract
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