Abstract
The emergence of next-generation sequencing technologies allowed access to the vast amounts of information that are contained in the human genome. This information has contributed to the understanding of individual and population-based variability and improved the understanding of the evolutionary history of different human groups. However, the genome of a representative of the Amerindian populations had not been previously sequenced. Thus, the genome of an individual from a South American tribe was completely sequenced to further the understanding of the genetic variability of Amerindians. A total of 36.8 giga base pairs (Gbp) were sequenced and aligned with the human genome. These Gbp corresponded to 95.92% of the human genome with an estimated miscall rate of 0.0035 per sequenced bp. The data obtained from the alignment were used for SNP (single-nucleotide) and INDEL (insertion-deletion) calling, which resulted in the identification of 502,017 polymorphisms, of which 32,275 were potentially new high-confidence SNPs and 33,795 new INDELs, specific of South Native American populations. The authenticity of the sample as a member of the South Native American populations was confirmed through the analysis of the uniparental (maternal and paternal) lineages. The autosomal comparison distinguished the investigated sample from others continental populations and revealed a close relation to the Eastern Asian populations and Aboriginal Australian. Although, the findings did not discard the classical model of America settlement; it brought new insides to the understanding of the human population history. The present study indicates a remarkable genetic variability in human populations that must still be identified and contributes to the understanding of the genetic variability of South Native American populations and of the human populations history.
Highlights
The emergence of next-generation sequencing (NGS) technologies, such as Solexa (Illumina) [1], 454 (Roche) [2] and SOLiD (Life Technologies) [3], allowed access to the vast amounts of information that are contained in the genomes of various organisms
The aim of the present study was to describe potential new genetic variations to be further analyzed among South Native American populations through the use of NGS technologies
The accumulation of additional data might contribute to a better understanding of the genetic diversity that is present in those populations and to an improved historical description of the expansion of the human population across the various continents
Summary
The emergence of next-generation sequencing (NGS) technologies, such as Solexa (Illumina) [1], 454 (Roche) [2] and SOLiD (Life Technologies) [3], allowed access to the vast amounts of information that are contained in the genomes of various organisms. Two large projects, HapMap [4] and the 1,000 Genomes Project [5], and other more specific initiatives [6,7,8,9,10,11,12,13,14] sought to document the genetic variability in the human genomes of different ethnic and geographic groups. Information on individual and/or population-based genetic variability, such as the information provided by whole genome sequencing (WGS), might contribute to the solution of many of these questions
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