ATXN3, ATXN7, CACNA1A, and RAI1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from South America

The spinocerebellar ataxia type 2 (SCA2) is a rare autosomal dominant neurodegenerative disease caused by expansions of a CAG repeat tract at ATXN2 gene. These repeats range from 22 to 31 CAG in normal alleles and from 32–34 to 64 and more, in expanded alleles. ATXN2 expansion accounts for around 50...

ver descrição completa

Na minha lista:
Detalhes bibliográficos
Principais autores: Godeiro Junior, Clécio de Oliveira, Pereira, Fernanda S., Monte, Thais L., Locks-Coelho, Lucas D., Silva, Amanda S. P., Barsottini, Orlando, Pedroso, José L., Cornejo-Olivas, Mario, Mazzetti, Pilar, Vargas, Fernando R., Lima, Maria Angélica F. D., Linden Junior, Hélio van der, Toralles, Maria Betânia Pereira, Medeiros, Paula F. V., Ribeiro, Erlane, Braga-Neto, Pedro, Salarini, Diego, Castilhos, Raphael M., Pereira, Maria Luiza Saraiva, Jardim, Laura Bannach
Outros Autores: 0000-0002-4312-1633
Formato: article
Idioma:English
Publicado em: Springer
Assuntos:
polyglutamine
spinocerebellar ataxia
A10398G polymorphism
maternal lineage
spinocerebellar ataxia type
Endereço do item:https://repositorio.ufrn.br/handle/123456789/53070
https://doi.org/10.1007/s12311-015-0666-8
Tags: Adicionar Tag
Sem tags, seja o primeiro a adicionar uma tag!
id ri-123456789-53070
record_format dspace
spelling ri-123456789-530702023-07-05T19:44:04Z ATXN3, ATXN7, CACNA1A, and RAI1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from South America Godeiro Junior, Clécio de Oliveira Pereira, Fernanda S. Monte, Thais L. Locks-Coelho, Lucas D. Silva, Amanda S. P. Barsottini, Orlando Pedroso, José L. Cornejo-Olivas, Mario Mazzetti, Pilar Vargas, Fernando R. Lima, Maria Angélica F. D. Linden Junior, Hélio van der Toralles, Maria Betânia Pereira Medeiros, Paula F. V. Ribeiro, Erlane Braga-Neto, Pedro Salarini, Diego Castilhos, Raphael M. Pereira, Maria Luiza Saraiva Jardim, Laura Bannach 0000-0002-4312-1633 polyglutamine spinocerebellar ataxia A10398G polymorphism maternal lineage spinocerebellar ataxia type The spinocerebellar ataxia type 2 (SCA2) is a rare autosomal dominant neurodegenerative disease caused by expansions of a CAG repeat tract at ATXN2 gene. These repeats range from 22 to 31 CAG in normal alleles and from 32–34 to 64 and more, in expanded alleles. ATXN2 expansion accounts for around 50 % of the variability in age at onset (AO) of symptoms . Former studies reported that other genes may be responsible for small effects in SCA2 AO. The CAG repeats’ length (CAGn) at RAI1 gene would explain 4 % of the remaining variance in AO in 46 SCA2 patients with no clear-cut geographical origin. Two publications studied candidate genes among patients with highly discordant AO, from an original sample of 394 patients from Holguin, Cuba Their data pointed to the CAGn at CACNA1A gene [3] and to a polymorphism of the mitochondrial complex I A10398G (rs2853826) as modifiers of SCA2 AO. We have previously found that longer CAGn at ATXN3 gene were associated with earlier ages at onset in a former sample of 49 SCA2 patients from Brazil. SCA2 AO was associated with the CAGn at ATXN7 gene in a European cohort of 289 SCA2 patients but this association was not confirmed in a second cohort [6]. Since replications in additional, independent samples of patients are required to validate a genetic association, we aimed to investigate these same loci in a South American cohort of SCA2 in order to add evidences on their role as modifiers of AO in this disease. 2023-07-05T19:44:04Z 2023-07-05T19:44:04Z 2015-04-14 article GODEIRO JUNIOR, Clecio de Oliveira et al. ATXN3, ATXN7, CACNA1A, and RAI1 Genes and Mitochondrial Polymorphism A10398G Did Not Modify Age at Onset in Spinocerebellar Ataxia Type 2 Patients from South America. The Cerebellum, [S.L.], v. 14, n. 6, p. 728-730, 14 abr. 2015. Springer Science and Business Media LLC. http://dx.doi.org/10.1007/s12311-015-0666-8. Disponível em: https://link.springer.com/article/10.1007/s12311-015-0666-8. Acesso em: 5 jul. 2023. https://repositorio.ufrn.br/handle/123456789/53070 https://doi.org/10.1007/s12311-015-0666-8 en application/pdf Springer
institution Repositório Institucional
collection RI - UFRN
language English
topic polyglutamine
spinocerebellar ataxia
A10398G polymorphism
maternal lineage
spinocerebellar ataxia type
spellingShingle polyglutamine
spinocerebellar ataxia
A10398G polymorphism
maternal lineage
spinocerebellar ataxia type
Godeiro Junior, Clécio de Oliveira
Pereira, Fernanda S.
Monte, Thais L.
Locks-Coelho, Lucas D.
Silva, Amanda S. P.
Barsottini, Orlando
Pedroso, José L.
Cornejo-Olivas, Mario
Mazzetti, Pilar
Vargas, Fernando R.
Lima, Maria Angélica F. D.
Linden Junior, Hélio van der
Toralles, Maria Betânia Pereira
Medeiros, Paula F. V.
Ribeiro, Erlane
Braga-Neto, Pedro
Salarini, Diego
Castilhos, Raphael M.
Pereira, Maria Luiza Saraiva
Jardim, Laura Bannach
ATXN3, ATXN7, CACNA1A, and RAI1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from South America
description The spinocerebellar ataxia type 2 (SCA2) is a rare autosomal dominant neurodegenerative disease caused by expansions of a CAG repeat tract at ATXN2 gene. These repeats range from 22 to 31 CAG in normal alleles and from 32–34 to 64 and more, in expanded alleles. ATXN2 expansion accounts for around 50 % of the variability in age at onset (AO) of symptoms . Former studies reported that other genes may be responsible for small effects in SCA2 AO. The CAG repeats’ length (CAGn) at RAI1 gene would explain 4 % of the remaining variance in AO in 46 SCA2 patients with no clear-cut geographical origin. Two publications studied candidate genes among patients with highly discordant AO, from an original sample of 394 patients from Holguin, Cuba Their data pointed to the CAGn at CACNA1A gene [3] and to a polymorphism of the mitochondrial complex I A10398G (rs2853826) as modifiers of SCA2 AO. We have previously found that longer CAGn at ATXN3 gene were associated with earlier ages at onset in a former sample of 49 SCA2 patients from Brazil. SCA2 AO was associated with the CAGn at ATXN7 gene in a European cohort of 289 SCA2 patients but this association was not confirmed in a second cohort [6]. Since replications in additional, independent samples of patients are required to validate a genetic association, we aimed to investigate these same loci in a South American cohort of SCA2 in order to add evidences on their role as modifiers of AO in this disease.
author2 0000-0002-4312-1633
author_facet 0000-0002-4312-1633
Godeiro Junior, Clécio de Oliveira
Pereira, Fernanda S.
Monte, Thais L.
Locks-Coelho, Lucas D.
Silva, Amanda S. P.
Barsottini, Orlando
Pedroso, José L.
Cornejo-Olivas, Mario
Mazzetti, Pilar
Vargas, Fernando R.
Lima, Maria Angélica F. D.
Linden Junior, Hélio van der
Toralles, Maria Betânia Pereira
Medeiros, Paula F. V.
Ribeiro, Erlane
Braga-Neto, Pedro
Salarini, Diego
Castilhos, Raphael M.
Pereira, Maria Luiza Saraiva
Jardim, Laura Bannach
format article
author Godeiro Junior, Clécio de Oliveira
Pereira, Fernanda S.
Monte, Thais L.
Locks-Coelho, Lucas D.
Silva, Amanda S. P.
Barsottini, Orlando
Pedroso, José L.
Cornejo-Olivas, Mario
Mazzetti, Pilar
Vargas, Fernando R.
Lima, Maria Angélica F. D.
Linden Junior, Hélio van der
Toralles, Maria Betânia Pereira
Medeiros, Paula F. V.
Ribeiro, Erlane
Braga-Neto, Pedro
Salarini, Diego
Castilhos, Raphael M.
Pereira, Maria Luiza Saraiva
Jardim, Laura Bannach
author_sort Godeiro Junior, Clécio de Oliveira
title ATXN3, ATXN7, CACNA1A, and RAI1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from South America
title_short ATXN3, ATXN7, CACNA1A, and RAI1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from South America
title_full ATXN3, ATXN7, CACNA1A, and RAI1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from South America
title_fullStr ATXN3, ATXN7, CACNA1A, and RAI1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from South America
title_full_unstemmed ATXN3, ATXN7, CACNA1A, and RAI1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from South America
title_sort atxn3, atxn7, cacna1a, and rai1 genes and mitochondrial polymorphism a10398g did not modify age at onset in spinocerebellar ataxia type 2 patients from south america
publisher Springer
publishDate 2023
url https://repositorio.ufrn.br/handle/123456789/53070
https://doi.org/10.1007/s12311-015-0666-8
work_keys_str_mv AT godeirojuniorcleciodeoliveira atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT pereirafernandas atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT montethaisl atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT lockscoelholucasd atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT silvaamandasp atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT barsottiniorlando atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT pedrosojosel atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT cornejoolivasmario atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT mazzettipilar atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT vargasfernandor atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT limamariaangelicafd atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT lindenjuniorheliovander atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT torallesmariabetaniapereira atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT medeirospaulafv atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT ribeiroerlane atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT braganetopedro atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT salarinidiego atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT castilhosraphaelm atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT pereiramarialuizasaraiva atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
AT jardimlaurabannach atxn3atxn7cacna1aandrai1genesandmitochondrialpolymorphisma10398gdidnotmodifyageatonsetinspinocerebellarataxiatype2patientsfromsouthamerica
_version_ 1773958772382760960

Registros relacionados