{\rtf1\ansi\deff0\deftab360 {\fonttbl {\f0\fswiss\fcharset0 Arial} {\f1\froman\fcharset0 Times New Roman} {\f2\fswiss\fcharset0 Verdana} {\f3\froman\fcharset2 Symbol} } {\colortbl; \red0\green0\blue0; } {\info {\author Biblio}{\operator }{\title Biblio RTF Export}} \f1\fs24 \paperw11907\paperh16839 \pgncont\pgndec\pgnstarts1\pgnrestart Gomes, F., L. Maia, J. A. Loureiro, M. C. Pereira, C. Delerue-Matos, I. Moura, JJG Moura, and S. Morais. "Biosensor for direct bioelectrocatalysis detection of nitric oxide using nitric oxide reductase incorporated in carboxylated single-walled carbon nanotubes/lipidic 3 bilayer nanocomposite." \i Bioelectrochem\i0 . 127 (2019): 76-86.\par \par Cordas, C., M. Campani\'e7o, R. Baptista, L. Maia, I. Moura, and JJG Moura. "Direct electrochemical reduction of carbon dioxide by a molybdenum-containing formate dehydrogenase." \i J Inorg Biochem\i0 . 196 (2019): 110694.\par \par Gomes, F., L. Maia, C. Cordas, I. Moura, C. Delerue-Matos, JJG Moura, and S. Morais. "Electroanalytical characterization of the direct Marinobacter hydrocarbonoclasticus nitric oxide reductase-catalysed nitric oxide and dioxygen reduction." \i Bioelectrochem\i0 . 125 (2019): 8-14.\par \par Maiti, B. K., L. Maia, I. Moura, and JJG Moura. "NiII-ATCUN-catalyzed tyrosine nitration in the presence of nitrite and sulfite." \i Chem Eur J\i0 . 25 (2019): 4309-4314.\par \par Gomes, F., L. Maia, C. Delerue-Matos, I. Moura, JJG Moura, and S. Morais. "Third-generation electrochemical biosensor based on nitric oxide reductase immobilized in a multiwalled carbon nanotubes/1-n-butyl-3-methylimidazolium tetrafluoroborate nanocomposite for nitric oxide detection." \i Sensors Act B Chem\i0 . 285 (2019): 445-452.\par \par Maia, Luisa B., and JJG Moura. "Mononuclear molybdenum-containing enzymes." \i Reference Module in Chemistry, Molecular Sciences and Chemical Engineering\i0 . Elsevier, 2018. 1-19.\par \par Gomes, F., L. Maia, C. Cordas, C. Delerue-Matos, I. Moura, JJG Moura, and S. Morais. "Nitric oxide detection using electrochemical third-generation biosensors ? based on heme proteins and porphyrins." \i Electroanalysis\i0 . 30 (2018): 2485-2503.\par \par Samhan-Arias, A., L. Maia, C. M. Cordas, I. Moura, C. Gutierrez-Merino, and JJG Moura. "Peroxidase-like activity of cytochrome b5 is triggered upon hemichrome formation in alkaline pH." \i BBA - Proteins and Proteomics\i0 . 1866 (2018): 373-378.\par \par Maia, L. B., and JJG Moura. "Putting xanthine oxidoreductase and aldehyde oxidase on the NO metabolism map: nitrite reduction by molybdoenzymes." \i Redox Biol\i0 . 19 (2018): 274-289.\par \par Maiti, B. K., L. Maia, AJ Moro, J. C. Lima, C. M. Cordas, I. Moura, and JJG Moura. "Unusual reduction mechanism of copper in cysteine-rich environment." \i Inorg Chem\i0 . 57 (2018): 8078-8088.\par \par Moura, I., L. B. Maia, S. R. Pauleta, and JJG Moura. "A bird?s-eye view of denitrification in relation to the nitrogen cycle." \i Metalloenzymes in Denitrification: Applications and Environmental Impacts, RSC Metallobiology Series No. 9 (ISBN: 978-1-78262-376-2).\i0 Eds. I. Moura, JJG Moura, S. R. Pauleta, and L. B. Maia. Vol. 39. The Royal Society of Chemistry, 2017. 1-10.\par \par Maia, L. B., I. Moura, and JJG Moura. "EPR spectroscopy on mononuclear molybdenum-containing enzymes." \i Future Directions in Metalloprotein and Metalloenzyme Research, Biological Magnetic Resonance, Vol. 33 (ISBN: 978-3-319-59100-1)\i0 . Eds. G. Hanson, and LJ Berliner. Vol. 12. Cham: Springer Publishers, 2017. 100-130.\par \par Viveiros, R., FM Dias, L. Maia, W. Heggie, and T. Casimiro. "Green strategy to produce large core-shell affinity beads for gravity-driven API purification processes." \i J Ind Eng Chem\i0 . 54 (2017): 341-349.\par \par Maiti, B. K., R. M. Almeida, L. Maia, I. Moura, and JJG Mura. "Insights into the molybdenum/copper heterometallic cluster assembly in the orange protein: probing intermolecular interactions with an artificial metal-binding ATCUN tag." \i Inorg Chem\i0 . 56 (2017): 8900-8911.\par \par Maia, L. B., and JJG Moura. "Lessons from denitrification for the human metabolism of signalling nitric oxide." \i Metalloenzymes in Denitrification: Applications and Environmental Impacts, RSC Metallobiology Series No. 9 (ISBN: 978-1-78262-376-2).\i0 Eds. I. Moura, JJG Moura, S. R. Pauleta, and L. B. Maia. Vol. 41. The Royal Society of Chemistry, 2017. 300-320.\par \par Maia, L. B., I. Moura, and JJG Moura. "Molybdenum and tungsten-containing enzymes: an overview." \i Molybdenum and Tungsten Enzymes: Biochemistry, RSC Metallobiology Series No. 5 (ISBN: 978-1-78262-089-1). \i0 Eds. R. Hille, C. Schulzke, and M. Kirk. Vol. 28. The Royal Society of Chemistry, 2017. 1-80.\par \par Maia, L. B., I. Moura, and JJG Moura. "Molybdenum and tungsten-containing formate dehydrogenases: aiming to inspire a catalyst for carbon dioxide utilization." \i Inorg Chim Acta\i0 . 455 (2017): 350-363.\par \par Maiti, B. K., L. Maia, S. R. Pauleta, I. Moura, and JJG Moura. "Protein-Assisted Formation of Molybdenum Heterometallic Clusters: Evidence for the Formation of S2MoS2?M?S2MoS2 Clusters with M = Fe, Co, Ni, Cu, or Cd within the Orange Protein." \i Inorg Chem\i0 . 56 (2017): 2210-2220.\par \par Maia, L. B., and JJG Moura. "Detection of nitric oxide by electron paramagnetic resonance spectroscopy: spin-trapping with iron-dithiocarbamates." \i Methods Mol Biol\i0 . 1424 (2016): 81-102.\par \par Maia, L. B., L. Fonseca, I. Moura, and JJG Moura. "Reduction of carbon dioxide by a molybdenum-containing formate dehydrogenase: a kinetic and mechanistic study." \i J Am Chem Soc\i0 . 138 (2016): 8834-8846.\par \par Maiti, B. K., L. B. Maia, C. M. Silveira, S. Todorovic, C. Carreira, M. S. Carepo, R. Grazina, I. Moura, S. R. Pauleta, and JJG Moura. "Incorporation of molybdenum in rubredoxin: models for mononuclear molybdenum enzymes." \i Journal of Biological Inorganic Chemistry\i0 . 20 (2015): 821-829.\par \par Moura, JJG, PV Bernhardt, L. B. Maia, and P. J. Gonzalez. "Molybdenum and tungsten enzymes: from Biology to chemistry and back." \i Journal of Biological Inorganic Chemistry\i0 . 20 (2015): 181-182.\par \par Maia, Luisa B., Jose J. G. Moura, and Isabel Moura. "Molybdenum and tungsten-dependent formate dehydrogenases." \i Journal of Biological Inorganic Chemistry\i0 . 20 (2015): 287-309.\par \par Maia, Luisa B., V. Pereira, Lurdes Mira, and JJG Moura. "Nitrite reductase activity of rat and human xanthine oxidase, xanthine dehydrogenase and aldehyde oxidase: evaluation of their contribution to the NO formation in vivo." \i Biochemistry\i0 . 54 (2015): 685-710.\par \par Maia, Luisa B., and JJG Moura. "Nitrite reduction by molybdoenzymes: a new class of nitric oxide-forming nitrite reductases." \i Journal of Biological Inorganic Chemistry\i0 . 20 (2015): 403-433.\par \par Maia, Luisa B., and Jose J. G. Moura. "How Biology handles nitrite." \i Chemical Reviews\i0 . 114 (2014): 5273-5357.\par \par Maiti, Biplab K., Luisa B. Maia, Kuntal Pal, Bholanath Pakhira, Teresa Aviles, Isabel Moura, Sofia R. Pauleta, Jose L. Nunez, Alberto C. Rizzi, Carlos D. Brondino, Sabyasachi Sarkar, and Jose J. G. Moura. "One electron reduced square planar bis(benzene-1,2-dithiolato) copper dianionic complex and redox switch by O2/HO-." \i Inorganic Chemistry\i0 . 53 (2014): 12799-12808.\par \par }