Distribution patterns of variability for 18 immune system genes in Amerindians - relationship with history and epidemiology

Distribution patterns of variability for 18 immune system genes in Amerindians - relationship with history and epidemiology

Native American populations generally have a higher prevalence of infectious diseases than non‐Native populations and this fact can induce different pressures in their immune system. We investigated the patterns of population differentiation (FST) of 32 polymorphisms related to adaptive immune respo...

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Bibliographic Details
Published in:Tissue antigens Vol. 82; no. 3; pp. 177 - 185
Main Authors: Lindenau, J. D., Salzano, F. M., Guimarães, L. S. P., Callegari-Jacques, S. M., Hurtado, A. M., Hill, K. R., Petzl-Erler, M. L., Tsuneto, L. T., Hutz, M. H.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-09-2013
Subjects:
Aché
African Continental Ancestry Group
Amerindians
Asian Continental Ancestry Group
Biological Evolution
Brazil - ethnology
Cytokines - genetics
Cytokines - immunology
Data processing
Databases, Genetic
European Continental Ancestry Group
Guarani
HapMap Project
Humans
immune response genes
Immunity, Innate
Indians, South American
interleukins
Kaingang
Minor Histocompatibility Antigens
Nuclear Proteins - genetics
Nuclear Proteins - immunology
Phylogeography
Polymorphism, Single Nucleotide
Population Dynamics
Protein Tyrosine Phosphatase, Non-Receptor Type 22 - genetics
Protein Tyrosine Phosphatase, Non-Receptor Type 22 - immunology
Receptors, Calcitriol - genetics
Receptors, Calcitriol - immunology
Receptors, Purinergic P2X7 - genetics
Receptors, Purinergic P2X7 - immunology
Guarani
Amerindians
Kaingang
immune response genes
Aché
interleukins
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Summary:Native American populations generally have a higher prevalence of infectious diseases than non‐Native populations and this fact can induce different pressures in their immune system. We investigated the patterns of population differentiation (FST) of 32 polymorphisms related to adaptive immune response in four Native American populations (Aché, Guarani‐Kaiowá, Guarani‐Ñandeva and Kaingang), and the results were compared with the three major world population data [Yoruba of Ibadan, Nigeria (YRI), Utah residents with northern and Western Europe ancestry (CEU) and Han Chinese of Beijing, China (CHB)] available in the HapMap database. The Aché clearly differentiated from the other Amerindians, but when all Native Americans were compared with the samples of other ethnic groups the lowest difference (0.08) was found with CHB (Asians), the second lowest (0.15) with YRI (Africans) and the most marked with CEU (European‐derived). The considerable intra and interethnic differences found can be explained both in terms of diverse evolutionary distances and more recent environmental pathogen exposures; and they should be appropriately considered prior to any specific public health action.
Bibliography:ark:/67375/WNG-QNCT2TXQ-3
istex:606C005627FBA48B7789BFD25D836297558DC775
Table S1. Hardy-Weinberg equilibrium model for 32 SNPs in four South Amerindian populations.Table S2. Mean heterozygosity for 32 SNPs in Amerindians (AME), CEU, YRI and CHB populations.
ArticleID:TAN12183
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
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ISSN:0001-2815
1399-0039
DOI:10.1111/tan.12183