Current Understanding of Human Polymorphism in Selenoprotein Genes: A Review of Its Significance as a Risk Biomarker

Selenium has been proven to influence several biological functions, showing to be an essential micronutrient. The functional studies demonstrated the benefits of a balanced selenium diet and how its deficiency is associated with diverse diseases, especially cancer and viral diseases. Selenium is an...

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Veröffentlicht in:	International journal of molecular sciences 2024-02, Vol.25 (3), p.1402
Hauptverfasser:	Ferreira, Roberto Rodrigues, Carvalho, Regina Vieira, Coelho, Laura Lacerda, Gonzaga, Beatriz Matheus de Souza, Bonecini-Almeida, Maria da Gloria, Garzoni, Luciana Ribeiro, Araujo-Jorge, Tania C
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Schlagworte:	Amino acids Biomarkers Cardiovascular diseases Catalysis Development and progression Diabetes Endoplasmic reticulum Endothelium Enzymes Epidermal growth factor Genes Genetic aspects Genetic polymorphisms Genomes Homeostasis Humans Inflammation - genetics Lipids Liver Mediation Mortality Musculoskeletal system Neoplasms - genetics Oxidative stress Physiological aspects Prevention Proteins Selenium Selenium - metabolism Selenoproteins - genetics Selenoproteins - metabolism Sperm Thioredoxin Thyroid diseases Type 2 diabetes Virus diseases
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creator	Ferreira, Roberto Rodrigues Carvalho, Regina Vieira Coelho, Laura Lacerda Gonzaga, Beatriz Matheus de Souza Bonecini-Almeida, Maria da Gloria Garzoni, Luciana Ribeiro Araujo-Jorge, Tania C
description	Selenium has been proven to influence several biological functions, showing to be an essential micronutrient. The functional studies demonstrated the benefits of a balanced selenium diet and how its deficiency is associated with diverse diseases, especially cancer and viral diseases. Selenium is an antioxidant, protecting the cells from damage, enhancing the immune system response, preventing cardiovascular diseases, and decreasing inflammation. Selenium can be found in its inorganic and organic forms, and its main form in the cells is the selenocysteine incorporated into selenoproteins. Twenty-five selenoproteins are currently known in the human genome: glutathione peroxidases, iodothyronine deiodinases, thioredoxin reductases, selenophosphate synthetase, and other selenoproteins. These proteins lead to the transport of selenium in the tissues, protect against oxidative damage, contribute to the stress of the endoplasmic reticulum, and control inflammation. Due to these functions, there has been growing interest in the influence of polymorphisms in selenoproteins in the last two decades. Selenoproteins' gene polymorphisms may influence protein structure and selenium concentration in plasma and its absorption and even impact the development and progression of certain diseases. This review aims to elucidate the role of selenoproteins and understand how their gene polymorphisms can influence the balance of physiological conditions. In this polymorphism review, we focused on the PubMed database, with only articles published in English between 2003 and 2023. The keywords used were "selenoprotein" and "polymorphism". Articles that did not approach the theme subject were excluded. Selenium and selenoproteins still have a long way to go in molecular studies, and several works demonstrated the importance of their polymorphisms as a risk biomarker for some diseases, especially cardiovascular and thyroid diseases, diabetes, and cancer.
doi_str_mv	10.3390/ijms25031402
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Selenoproteins' gene polymorphisms may influence protein structure and selenium concentration in plasma and its absorption and even impact the development and progression of certain diseases. This review aims to elucidate the role of selenoproteins and understand how their gene polymorphisms can influence the balance of physiological conditions. In this polymorphism review, we focused on the PubMed database, with only articles published in English between 2003 and 2023. The keywords used were "selenoprotein" and "polymorphism". Articles that did not approach the theme subject were excluded. 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Selenoproteins' gene polymorphisms may influence protein structure and selenium concentration in plasma and its absorption and even impact the development and progression of certain diseases. This review aims to elucidate the role of selenoproteins and understand how their gene polymorphisms can influence the balance of physiological conditions. In this polymorphism review, we focused on the PubMed database, with only articles published in English between 2003 and 2023. The keywords used were "selenoprotein" and "polymorphism". Articles that did not approach the theme subject were excluded. 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subjects	Amino acids Biomarkers Cardiovascular diseases Catalysis Development and progression Diabetes Endoplasmic reticulum Endothelium Enzymes Epidermal growth factor Genes Genetic aspects Genetic polymorphisms Genomes Homeostasis Humans Inflammation - genetics Lipids Liver Mediation Mortality Musculoskeletal system Neoplasms - genetics Oxidative stress Physiological aspects Prevention Proteins Selenium Selenium - metabolism Selenoproteins - genetics Selenoproteins - metabolism Sperm Thioredoxin Thyroid diseases Type 2 diabetes Virus diseases
title	Current Understanding of Human Polymorphism in Selenoprotein Genes: A Review of Its Significance as a Risk Biomarker
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