The domestication process in Lima bean (Phaseolus lunatus L.) involves at least two independent events, within the Mesoamerican and Andean gene pools. Both processes produced similar phenotypic changes in landraces, making Lima bean an excellent model to understand convergent evolution. Despite recent research efforts, the mechanisms of adaptation followed by Mesoamerican and Andean landraces are largely unknown. The genes related to these adaptations can be selected by identification of selective sweeps within gene pools. Most of the previous genetic analyses in Lima bean have relied on Single Nucleotide Polymorphism (SNP) loci and have ignored transposable elements (TEs) which are a major source of variation in plant genomes. The current availability of high-throughput sequencing technologies enables the collection of whole-genome resequencing (WGS) data to approach intraspecies population dynamics of TEs. The present research collected WGS data from 60 wild and domesticated Lima bean accessions to generate the most complete characterization developed to date of transposable elements and SNP loci in the Lima bean genome. We generated an updated annotation of 223,780 transposable elements in the Lima bean genome. Furthermore, we identified genes and variable TEs affected by selective sweeps. Combining three different approaches, selective sweeps were predicted to generate a set of domestication candidate genes. A small percentage of genes under selection (1.6%) were shared among gene pools, suggesting that domestication followed different genetic avenues in both gene pools. Up to 25% of the genes with previously reported selective sweeps in common bean were also detected in Lima bean. We also built a catalog of 39,459 TEs with presence-absence variation (PAV). The fact that 75% of these TEs were located close to genes shows their potential to affect gene functions in Lima bean. The genetic structure inferred from variable TEs was consistent with that obtained from SNP markers, suggesting that TE dynamics can be related to the demographic history of wild and domesticated Lima bean and its adaptive processes, in particular selection processes during domestication.
Contexto: Se realizó un estudio acerca de los compuestos bioactivos de ciertos alimentos, teniendo en cuenta los beneficios que generan a la salud humana.Método: En este trabajo se presenta una revisión bibliográfica de las diferentes aplicaciones de los alimentos funcionales y su aplicación en la agroindustria.Resultados: Los malos hábitos alimenticios pueden generar un déficit en el requerimiento de compuestos bioactivos importantes para el buen funcionamiento del organismo; a su vez, la demanda y la tendencia de consumo de alimentos funcionales se hace cada vez más grande debido a los múltiples beneficios y usos potenciales que se pueden obtener de éstos, junto con las necesidades nutricionales básicas que se requieren.Conclusiones: Se evidencia el interés por realizar nuevos estudios en la obtención de este tipo de alimentos. Para esto, se deberán incorporar nuevos ingredientes en matrices alimentarias, con el fin de preservar los compuestos bioactivos y que ejecuten su principal función: que aparte de nutrir, reduzcan o controlen diversas enfermedades que en algunos casos pueden ser crónicas.
The domestication process in lima bean (Phaseolus lunatus L.) involves two independent events, within the Mesoamerican and Andean gene pools. This makes lima bean an excellent model to understand convergent evolution. The mechanisms of adaptation followed by Mesoamerican and Andean landraces are largely unknown. Genes related to these adaptations can be selected by identification of selective sweeps within gene pools. Previous genetic analyses in lima bean have relied on Single Nucleotide Polymorphism (SNP) loci, and have ignored transposable elements (TEs). Here we show the analysis of whole-genome sequencing data from 61 lima bean accessions to characterize a genomic variation database including TEs and SNPs, to associate selective sweeps with variable TEs and to predict candidate domestication genes. A small percentage of genes under selection are shared among gene pools, suggesting that domestication followed different genetic avenues in both gene pools. About 75% of TEs are located close to genes, which shows their potential to affect gene functions. The genetic structure inferred from variable TEs is consistent with that obtained from SNP markers, suggesting that TE dynamics can be related to the demographic history of wild and domesticated lima bean and its adaptive processes, in particular selection processes during domestication.
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