Copper (Cu): Reactivity, coordination compounds and biological action

Detalhes bibliográficos
Autor(a) principal: Moreira, Leonardo Marmo
Data de Publicação: 2024
Outros Autores: Teixeira, Alexandre de Oliveira, Lyon, Juliana Pereira
Tipo de documento: Artigo
Idioma: por
Título da fonte: Research, Society and Development
Texto Completo: https://rsdjournal.org/index.php/rsd/article/view/45291
Resumo: Copper (Cu) is one of the metals most used by human beings and its use, in the most diverse applications, goes back ancient times. Presenting a relatively high redox versatility (more than three (3) possible oxidation states with significant stability: Cu(I); Cu(II); Cu(III); and Cu(IV)), it is found mainly in oxidation states +1 (cuprous ion, Cu(I)) and +2 (cupric ion, Cu(II)). Copper (Cu) presents an extremely rich and varied coordination chemistry, starting with the significant differences found in the possible geometries for its respective metallic complexes. Cu(I) has a d10 electronic configuration, while Cu(II) has a d9 configuration and Cu(III) constitutes a d8 configuration. These three (3) distinct electronic configurations represent predispositions to different metal complex geometries (tetrahedral, distorted octahedral and planar quadratic, respectively). It also stands out for being one of the main transition metals in the biological environment, with special action in active sites of highly relevant metalloproteins, such as hemocyanins and blue copper proteins (Cu). The aim of this work is to present an introdutory study on the chemistry of copper (Cu), with special attention to its bioinorganic chemistry, especially the structure-function relationship of copper metalloproteins (Cu), through "Narrative Literature Review". In this way this article presents the chemistry of Copper (Cu), initiating from the fundamental properties of this element, commenting the copper (Cu) characteristics as coordination center, and finalizing with relevant examples of the copper (Cu) action in the biological medium, especially acting as active site of proteins.
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spelling Copper (Cu): Reactivity, coordination compounds and biological actionCobre (Cu): Reactividad, compuestos de coordinación y acción biológicaCobre (Cu): Reatividade, compostos de coordenação e atuação biológicaComplejos metálicosHemocianinasRielesProteínas de cobre azul.Complexos metálicosHemocianinasMetaisProteínas azuis de cobre.Metallic complexesHemocyaninsMetalsBlue copper proteins.Copper (Cu) is one of the metals most used by human beings and its use, in the most diverse applications, goes back ancient times. Presenting a relatively high redox versatility (more than three (3) possible oxidation states with significant stability: Cu(I); Cu(II); Cu(III); and Cu(IV)), it is found mainly in oxidation states +1 (cuprous ion, Cu(I)) and +2 (cupric ion, Cu(II)). Copper (Cu) presents an extremely rich and varied coordination chemistry, starting with the significant differences found in the possible geometries for its respective metallic complexes. Cu(I) has a d10 electronic configuration, while Cu(II) has a d9 configuration and Cu(III) constitutes a d8 configuration. These three (3) distinct electronic configurations represent predispositions to different metal complex geometries (tetrahedral, distorted octahedral and planar quadratic, respectively). It also stands out for being one of the main transition metals in the biological environment, with special action in active sites of highly relevant metalloproteins, such as hemocyanins and blue copper proteins (Cu). The aim of this work is to present an introdutory study on the chemistry of copper (Cu), with special attention to its bioinorganic chemistry, especially the structure-function relationship of copper metalloproteins (Cu), through "Narrative Literature Review". In this way this article presents the chemistry of Copper (Cu), initiating from the fundamental properties of this element, commenting the copper (Cu) characteristics as coordination center, and finalizing with relevant examples of the copper (Cu) action in the biological medium, especially acting as active site of proteins.El cobre (Cu) es uno de los metales más utilizados por el ser humano y su uso, en las más diversas aplicaciones, se remonta a la antigüedad. Al presentar una versatilidad redox relativamente alta (más de tres (3) posibles estados de oxidación con estabilidad significativa: Cu(I); Cu(II); Cu(III); y Cu(IV)), se encuentra principalmente en estados de oxidación + 1 (ion cuproso, Cu(I)) y +2 (ion cúprico, Cu(II)). El cobre (Cu) presenta una química de coordinación extremadamente rica y variada, comenzando por las diferencias significativas encontradas en las posibles geometrías de sus respectivos complejos metálicos. El Cu(I) tiene una configuración electrónica d10, mientras que el Cu(II) tiene una configuración d9 y el Cu(III) constituye una configuración d8. Estas tres (3) configuraciones electrónicas distintas representan predisposiciones a diferentes geometrías complejas de metales (tetraédrica, octaédrica distorsionada y cuadrática plana, respectivamente). Destaca también por ser uno de los principales metales de transición en el medio biológico, con especial acción en sitios activos de metaloproteínas de gran relevancia, como las hemocianinas y las proteínas azules de cobre (Cu). El objetivo de este trabajo es presentar un estudio introductorio a la química del cobre (Cu), con especial atención a su química bioinorgánica, especialmente a la relación estructura-función de las metaloproteínas del cobre (Cu), a través de "Narrative Literature Review". Por lo tanto, este artículo presenta la química del cobre (Cu), partiendo de las propriedades fundamentales de este elemento, passando por las características del Cu como centro de coordinación y culminando com ejemplos relevantes del papel del Cu em le médio biológico, em particular, actuando como sítio activo de proteínas.O cobre (Cu) é um dos metais mais utilizados pelo ser humano e seu emprego, nas mais diversas aplicações, remonta a priscas eras. Apresentando uma versatilidade redox relativamente alta (mais do que três (3) estados de oxidação possíveis com significativa estabilidade: Cu(I); Cu(II); Cu(III); e Cu(IV)), é encontrado, principalmente, nos estados de oxidação +1 (íon cuproso, Cu(I)) e +2 (íon cúprico, Cu(II)). O cobre (Cu) apresenta uma química de coordenação extremamente rica e variada, a começar pelas significativas diferenças encontradas nas geometrias possíveis para os seus respectivos complexos metálicos. Cu(I) apresenta uma configuração eletrônica d10, enquanto Cu(II) possui uma configuração d9 e Cu(III) constitui uma configuração d8. Estas três (3) configurações eletrônicas distintas representam predisposições a geometrias de complexos metálicos diferenciadas (tetraédrica, octaédrica distorcida e quadrática planar, respectivamente). Destaca-se, igualmente, por ser um dos principais metais de transição no meio biológico, com especial atuação em sítios ativos de altamente relevantes metaloproteínas, tais como as hemocianinas e as proteínas azuis de cobre (Cu). O objetivo deste trabalho é apresentar um estudo introdutório à química do cobre (Cu), como especial atenção à sua química bioinorgânica, sobretudo a relação estrutura-função das metaloproteínas de cobre (Cu), através de “Revisão Narrativa de Literatura”. Assim sendo, este artigo apresenta a química do cobre (Cu), partindo das propriedades fundamentais deste elemento, passando pelas características do Cu como centro de coordenação e culminando com relevantes exemplos da atuação do Cu no meio biológico, em especial, atuando como sítio ativo de proteínas.Research, Society and Development2024-03-16info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://rsdjournal.org/index.php/rsd/article/view/4529110.33448/rsd-v13i3.45291Research, Society and Development; Vol. 13 No. 3; e5313345291Research, Society and Development; Vol. 13 Núm. 3; e5313345291Research, Society and Development; v. 13 n. 3; e53133452912525-3409reponame:Research, Society and Developmentinstname:Universidade Federal de Itajubá (UNIFEI)instacron:UNIFEIporhttps://rsdjournal.org/index.php/rsd/article/view/45291/36105Copyright (c) 2024 Leonardo Marmo Moreira; Alexandre de Oliveira Teixeira; Juliana Pereira Lyonhttps://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccessMoreira, Leonardo MarmoTeixeira, Alexandre de Oliveira Lyon, Juliana Pereira 2024-04-04T18:36:46Zoai:ojs.pkp.sfu.ca:article/45291Revistahttps://rsdjournal.org/index.php/rsd/indexPUBhttps://rsdjournal.org/index.php/rsd/oairsd.articles@gmail.com2525-34092525-3409opendoar:2024-04-04T18:36:46Research, Society and Development - Universidade Federal de Itajubá (UNIFEI)false
dc.title.none.fl_str_mv Copper (Cu): Reactivity, coordination compounds and biological action
Cobre (Cu): Reactividad, compuestos de coordinación y acción biológica
Cobre (Cu): Reatividade, compostos de coordenação e atuação biológica
title Copper (Cu): Reactivity, coordination compounds and biological action
spellingShingle Copper (Cu): Reactivity, coordination compounds and biological action
Moreira, Leonardo Marmo
Complejos metálicos
Hemocianinas
Rieles
Proteínas de cobre azul.
Complexos metálicos
Hemocianinas
Metais
Proteínas azuis de cobre.
Metallic complexes
Hemocyanins
Metals
Blue copper proteins.
title_short Copper (Cu): Reactivity, coordination compounds and biological action
title_full Copper (Cu): Reactivity, coordination compounds and biological action
title_fullStr Copper (Cu): Reactivity, coordination compounds and biological action
title_full_unstemmed Copper (Cu): Reactivity, coordination compounds and biological action
title_sort Copper (Cu): Reactivity, coordination compounds and biological action
author Moreira, Leonardo Marmo
author_facet Moreira, Leonardo Marmo
Teixeira, Alexandre de Oliveira
Lyon, Juliana Pereira
author_role author
author2 Teixeira, Alexandre de Oliveira
Lyon, Juliana Pereira
author2_role author
author
dc.contributor.author.fl_str_mv Moreira, Leonardo Marmo
Teixeira, Alexandre de Oliveira
Lyon, Juliana Pereira
dc.subject.por.fl_str_mv Complejos metálicos
Hemocianinas
Rieles
Proteínas de cobre azul.
Complexos metálicos
Hemocianinas
Metais
Proteínas azuis de cobre.
Metallic complexes
Hemocyanins
Metals
Blue copper proteins.
topic Complejos metálicos
Hemocianinas
Rieles
Proteínas de cobre azul.
Complexos metálicos
Hemocianinas
Metais
Proteínas azuis de cobre.
Metallic complexes
Hemocyanins
Metals
Blue copper proteins.
description Copper (Cu) is one of the metals most used by human beings and its use, in the most diverse applications, goes back ancient times. Presenting a relatively high redox versatility (more than three (3) possible oxidation states with significant stability: Cu(I); Cu(II); Cu(III); and Cu(IV)), it is found mainly in oxidation states +1 (cuprous ion, Cu(I)) and +2 (cupric ion, Cu(II)). Copper (Cu) presents an extremely rich and varied coordination chemistry, starting with the significant differences found in the possible geometries for its respective metallic complexes. Cu(I) has a d10 electronic configuration, while Cu(II) has a d9 configuration and Cu(III) constitutes a d8 configuration. These three (3) distinct electronic configurations represent predispositions to different metal complex geometries (tetrahedral, distorted octahedral and planar quadratic, respectively). It also stands out for being one of the main transition metals in the biological environment, with special action in active sites of highly relevant metalloproteins, such as hemocyanins and blue copper proteins (Cu). The aim of this work is to present an introdutory study on the chemistry of copper (Cu), with special attention to its bioinorganic chemistry, especially the structure-function relationship of copper metalloproteins (Cu), through "Narrative Literature Review". In this way this article presents the chemistry of Copper (Cu), initiating from the fundamental properties of this element, commenting the copper (Cu) characteristics as coordination center, and finalizing with relevant examples of the copper (Cu) action in the biological medium, especially acting as active site of proteins.
publishDate 2024
dc.date.none.fl_str_mv 2024-03-16
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://rsdjournal.org/index.php/rsd/article/view/45291
10.33448/rsd-v13i3.45291
url https://rsdjournal.org/index.php/rsd/article/view/45291
identifier_str_mv 10.33448/rsd-v13i3.45291
dc.language.iso.fl_str_mv por
language por
dc.relation.none.fl_str_mv https://rsdjournal.org/index.php/rsd/article/view/45291/36105
dc.rights.driver.fl_str_mv Copyright (c) 2024 Leonardo Marmo Moreira; Alexandre de Oliveira Teixeira; Juliana Pereira Lyon
https://creativecommons.org/licenses/by/4.0
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Copyright (c) 2024 Leonardo Marmo Moreira; Alexandre de Oliveira Teixeira; Juliana Pereira Lyon
https://creativecommons.org/licenses/by/4.0
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv Research, Society and Development
publisher.none.fl_str_mv Research, Society and Development
dc.source.none.fl_str_mv Research, Society and Development; Vol. 13 No. 3; e5313345291
Research, Society and Development; Vol. 13 Núm. 3; e5313345291
Research, Society and Development; v. 13 n. 3; e5313345291
2525-3409
reponame:Research, Society and Development
instname:Universidade Federal de Itajubá (UNIFEI)
instacron:UNIFEI
instname_str Universidade Federal de Itajubá (UNIFEI)
instacron_str UNIFEI
institution UNIFEI
reponame_str Research, Society and Development
collection Research, Society and Development
repository.name.fl_str_mv Research, Society and Development - Universidade Federal de Itajubá (UNIFEI)
repository.mail.fl_str_mv rsd.articles@gmail.com
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