Structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : Disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer
Background: Superoxide dismutases are inactivated by peroxynitrite. Results: T. cruzi cytosolic Fe-SODB is highly resistant toward peroxynitrite-mediated tyrosine nitration and inactivation as compared with mitochondrial Fe-SODA. Conclusion: Intramolecular electron transfer in Fe-SODB from Cys83 to...
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todo:paper_00219258_v289_n18_p12760_Martinez2023-10-03T14:23:22Z Structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : Disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer Martinez, A. Peluffo, G. Petruk, A.A. Hugo, M. Piñeyro, D. Demicheli, V. Moreno, D.M. Lima, A. Batthyány, C. Durán, R. Robello, C. Martí, M.A. Larrieux, N. Buschiazzo, A. Trujillo, M. Radi, R. Piacenza, L. Amino acids Electron transitions Nitration Oxygen Repair Cytosolic Intra-molecular electron transfer Mammalian cells Molecular basis Peroxynitrites Superoxide dismutases Trypanosoma cruzi Tyrosine nitration Free radical reactions cysteine iron superoxide dismutase isoenzyme mitochondrial enzyme peroxynitrite tryptophan tyrosine alkylation article controlled study crystal structure cytosol electron transport enzyme active site enzyme analysis enzyme inactivation enzyme structure mass spectrometry molecular biology mutation nitration nonhuman priority journal structure analysis Trypanosoma cruzi Free Radicals Nitration Nitric Oxide Oxidation-Reduction Peroxynitrite Superoxide Superoxide Dismutase (SOD) Trypanosoma cruzi Trypanosome Animals Binding Sites Blotting, Western Catalytic Domain Chagas Disease Crystallography, X-Ray Cysteine Electron Spin Resonance Spectroscopy Electron Transport Enzyme Activation Host-Parasite Interactions Isoenzymes Kinetics Models, Molecular Molecular Dynamics Simulation Mutagenesis, Site-Directed Nitrates Peroxynitrous Acid Protein Binding Protein Structure, Secondary Protozoan Proteins Reactive Oxygen Species Superoxide Dismutase Trypanosoma cruzi Tyrosine Background: Superoxide dismutases are inactivated by peroxynitrite. Results: T. cruzi cytosolic Fe-SODB is highly resistant toward peroxynitrite-mediated tyrosine nitration and inactivation as compared with mitochondrial Fe-SODA. Conclusion: Intramolecular electron transfer in Fe-SODB from Cys83 to critical Tyr35 prevents enzyme nitration and inactivation. Significance: Disparate susceptibilities of Fe-SODs to peroxynitrite can influence parasite virulence during T. cruzi infection of mammalian cells. © 2014 by The American Society for Biochemistry and Molecular Biology, Inc. Fil:Petruk, A.A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Martí, M.A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Buschiazzo, A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00219258_v289_n18_p12760_Martinez |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Amino acids Electron transitions Nitration Oxygen Repair Cytosolic Intra-molecular electron transfer Mammalian cells Molecular basis Peroxynitrites Superoxide dismutases Trypanosoma cruzi Tyrosine nitration Free radical reactions cysteine iron superoxide dismutase isoenzyme mitochondrial enzyme peroxynitrite tryptophan tyrosine alkylation article controlled study crystal structure cytosol electron transport enzyme active site enzyme analysis enzyme inactivation enzyme structure mass spectrometry molecular biology mutation nitration nonhuman priority journal structure analysis Trypanosoma cruzi Free Radicals Nitration Nitric Oxide Oxidation-Reduction Peroxynitrite Superoxide Superoxide Dismutase (SOD) Trypanosoma cruzi Trypanosome Animals Binding Sites Blotting, Western Catalytic Domain Chagas Disease Crystallography, X-Ray Cysteine Electron Spin Resonance Spectroscopy Electron Transport Enzyme Activation Host-Parasite Interactions Isoenzymes Kinetics Models, Molecular Molecular Dynamics Simulation Mutagenesis, Site-Directed Nitrates Peroxynitrous Acid Protein Binding Protein Structure, Secondary Protozoan Proteins Reactive Oxygen Species Superoxide Dismutase Trypanosoma cruzi Tyrosine |
spellingShingle |
Amino acids Electron transitions Nitration Oxygen Repair Cytosolic Intra-molecular electron transfer Mammalian cells Molecular basis Peroxynitrites Superoxide dismutases Trypanosoma cruzi Tyrosine nitration Free radical reactions cysteine iron superoxide dismutase isoenzyme mitochondrial enzyme peroxynitrite tryptophan tyrosine alkylation article controlled study crystal structure cytosol electron transport enzyme active site enzyme analysis enzyme inactivation enzyme structure mass spectrometry molecular biology mutation nitration nonhuman priority journal structure analysis Trypanosoma cruzi Free Radicals Nitration Nitric Oxide Oxidation-Reduction Peroxynitrite Superoxide Superoxide Dismutase (SOD) Trypanosoma cruzi Trypanosome Animals Binding Sites Blotting, Western Catalytic Domain Chagas Disease Crystallography, X-Ray Cysteine Electron Spin Resonance Spectroscopy Electron Transport Enzyme Activation Host-Parasite Interactions Isoenzymes Kinetics Models, Molecular Molecular Dynamics Simulation Mutagenesis, Site-Directed Nitrates Peroxynitrous Acid Protein Binding Protein Structure, Secondary Protozoan Proteins Reactive Oxygen Species Superoxide Dismutase Trypanosoma cruzi Tyrosine Martinez, A. Peluffo, G. Petruk, A.A. Hugo, M. Piñeyro, D. Demicheli, V. Moreno, D.M. Lima, A. Batthyány, C. Durán, R. Robello, C. Martí, M.A. Larrieux, N. Buschiazzo, A. Trujillo, M. Radi, R. Piacenza, L. Structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : Disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer |
topic_facet |
Amino acids Electron transitions Nitration Oxygen Repair Cytosolic Intra-molecular electron transfer Mammalian cells Molecular basis Peroxynitrites Superoxide dismutases Trypanosoma cruzi Tyrosine nitration Free radical reactions cysteine iron superoxide dismutase isoenzyme mitochondrial enzyme peroxynitrite tryptophan tyrosine alkylation article controlled study crystal structure cytosol electron transport enzyme active site enzyme analysis enzyme inactivation enzyme structure mass spectrometry molecular biology mutation nitration nonhuman priority journal structure analysis Trypanosoma cruzi Free Radicals Nitration Nitric Oxide Oxidation-Reduction Peroxynitrite Superoxide Superoxide Dismutase (SOD) Trypanosoma cruzi Trypanosome Animals Binding Sites Blotting, Western Catalytic Domain Chagas Disease Crystallography, X-Ray Cysteine Electron Spin Resonance Spectroscopy Electron Transport Enzyme Activation Host-Parasite Interactions Isoenzymes Kinetics Models, Molecular Molecular Dynamics Simulation Mutagenesis, Site-Directed Nitrates Peroxynitrous Acid Protein Binding Protein Structure, Secondary Protozoan Proteins Reactive Oxygen Species Superoxide Dismutase Trypanosoma cruzi Tyrosine |
description |
Background: Superoxide dismutases are inactivated by peroxynitrite. Results: T. cruzi cytosolic Fe-SODB is highly resistant toward peroxynitrite-mediated tyrosine nitration and inactivation as compared with mitochondrial Fe-SODA. Conclusion: Intramolecular electron transfer in Fe-SODB from Cys83 to critical Tyr35 prevents enzyme nitration and inactivation. Significance: Disparate susceptibilities of Fe-SODs to peroxynitrite can influence parasite virulence during T. cruzi infection of mammalian cells. © 2014 by The American Society for Biochemistry and Molecular Biology, Inc. |
format |
JOUR |
author |
Martinez, A. Peluffo, G. Petruk, A.A. Hugo, M. Piñeyro, D. Demicheli, V. Moreno, D.M. Lima, A. Batthyány, C. Durán, R. Robello, C. Martí, M.A. Larrieux, N. Buschiazzo, A. Trujillo, M. Radi, R. Piacenza, L. |
author_facet |
Martinez, A. Peluffo, G. Petruk, A.A. Hugo, M. Piñeyro, D. Demicheli, V. Moreno, D.M. Lima, A. Batthyány, C. Durán, R. Robello, C. Martí, M.A. Larrieux, N. Buschiazzo, A. Trujillo, M. Radi, R. Piacenza, L. |
author_sort |
Martinez, A. |
title |
Structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : Disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer |
title_short |
Structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : Disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer |
title_full |
Structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : Disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer |
title_fullStr |
Structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : Disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer |
title_full_unstemmed |
Structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : Disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer |
title_sort |
structural and molecular basis of the peroxynitrite-mediated nitration and inactivation of trypanosoma cruzi iron-superoxide dismutases (fe-sods) a and b : disparate susceptibilities due to the repair of tyr35 radical by cys83 in fe-sodb through intramolecular electron transfer |
url |
http://hdl.handle.net/20.500.12110/paper_00219258_v289_n18_p12760_Martinez |
work_keys_str_mv |
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