Plastome genomics in South American maize landraces: chloroplast lineages parallel the geographic structuring of nuclear gene pools

Background and Aims: The number of plastome sequences has increased exponentially during the last decade. However, there is still little knowledge of the levels and distribution of intraspecific variation. The aims of this study were to estimate plastome diversity within Zea mays and analyse the distribution of haplotypes in connection with the landrace groups previously delimited for South American maize based on nuclear markers. Methods: We obtained the complete plastomes of 30 South American maize landraces and three teosintes by means of next-generation sequencing (NGS) and used them in combination with data from public repositories. After quality filtering, the curated data were employed to search for single-nucleotide polymorphisms, indels and chloroplast simple sequence repeats. Exact permutational contingency tests were performed to assess associations between plastome and nuclear variation. Network and Bayesian phylogenetic analyses were used to infer evolutionary relationships among haplotypes. Key Results: Our analyses identified a total of 124 polymorphic plastome loci, with the intergenic regions psbE-rps18, petN-rpoB, trnL_UAG-ndhF and rpoC2-atpI exhibiting the highest marker densities. Although restricted in number, these markers allowed the discrimination of 27 haplotypes in a total of 51 Zea mays individuals. Andean and lowland South American landraces differed significantly in haplotype distribution. However, overall differentiation patterns were not informative with respect to subspecies diversification, as evidenced by the scattered distribution of maize and teosinte plastomes in both the network and Bayesian phylogenetic reconstructions. Conclusions: Knowledge of intraspecific plastome variation provides the framework for a more comprehensive understanding of evolutionary processes at low taxonomic levels and may become increasingly important for future plant barcoding efforts. Whole-plastome sequencing provided useful variability to contribute to maize phylogeographic studies. The structuring of haplotype diversity in the maize landraces examined here clearly reflects the distinction between the Andean and South American lowland gene pools previously inferred based on nuclear markers.

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Bibliographic Details
Main Authors: Lopez, Mariana Gabriela, Fass, Monica Irina, Rivas, Juan Gabriel, Carbonell-Caballero, José, Vera, Pablo Alfredo, Puebla, Andrea Fabiana, Defacio, Raquel Alicia, Dopazo, Joaquín, Paniego, Norma Beatriz, Hopp, Horacio Esteban, Lia, Verónica Viviana
Format: info:ar-repo/semantics/artículo biblioteca
Language:eng
Published: Oxford University Press 2021-06-15T20:02:55Z
Subjects:Maíz, Zea mays, Genética, Variación Genética, Fitogenética, Genómica, Maize, Genetics, Genetic Variation, Plant Genetics, Genomics, Whole Plastome Sequencing, Maize Landraces, Intraspecific Variation, Maize Dispersal,
Online Access:http://hdl.handle.net/20.500.12123/9592
https://academic.oup.com/aob/advance-article-abstract/doi/10.1093/aob/mcab038/6161338
https://doi.org/10.1093/aob/mcab038
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