The plastomes of Astrocaryum aculeatum G. Mey. and A. murumuru Mart. show a flip-flop recombination between two short inverted repeats

The plastomes of Astrocaryum aculeatum G. Mey. and A. murumuru Mart. show a flip-flop recombination between two short inverted repeats

Astrocaryum murumuru Mart. and A. aculeatum G. Mey. are two palm species of Amazon forest that are economically important as source of food, oil and raw material for several applications. Genetic studies aiming to establish strategies for conservation and domestication of both species are still in t...

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Bibliographic Details
Published in:Planta Vol. 250; no. 4; pp. 1229 - 1246
Main Authors: de Santana Lopes, Amanda, Pacheco, Túlio Gomes, da Silva, Odyone Nascimento, Cruz, Leonardo Magalhães, Balsanelli, Eduardo, de Souza, Emanuel Maltempi, de Oliveira Pedrosa, Fábio, Rogalski, Marcelo
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Science + Business Media 01-10-2019
Springer Berlin Heidelberg
Springer Nature B.V
Subjects:
Agriculture
Arecaceae - genetics
Biodiversity
Biological evolution
Biomedical and Life Sciences
Breeding
Domestication
Ecology
Economic importance
Evolution, Molecular
Evolutionary conservation
Food sources
Forestry
Genes
Genetic diversity
Inverted Repeat Sequences - genetics
Life Sciences
Markers
Natural populations
Nucleotides
ORIGINAL ARTICLE
Phylogeny
Plant Sciences
Plastids - genetics
Plastomes
Population genetics
Recombination
Recombination, Genetic
RNA Editing
Single-nucleotide polymorphism
Species
Structural analysis
Wildlife conservation
Plastid SNPs
Palm tree
Plastid SSRs
Plastome evolution
Horizontal gene transfer
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Summary:Astrocaryum murumuru Mart. and A. aculeatum G. Mey. are two palm species of Amazon forest that are economically important as source of food, oil and raw material for several applications. Genetic studies aiming to establish strategies for conservation and domestication of both species are still in the beginning given that the exploitation is mostly by extractive activity. The identification and characterization of molecular markers are essential to assess the genetic diversity of natural populations of both species. Therefore, we sequenced and characterized in detail the plastome of both species. We compared both species and identified 32 polymorphic SSR loci, 150 SNPs, 46 indels and eight hotspots of nucleotide diversity. Additionally, we reported a specific RNA editing site found in the ccsA gene, which is exclusive to A. murumuru. Moreover, the structural analysis in the plastomes of both species revealed a 4.6-kb inversion encompassing a set of genes involved in chlororespiration and plastid translation. This 4.6-kb inversion is a lineage-specific structural feature of the genus Astrocaryum originated by flip-flop recombination between two short inverted repeats. Furthermore, our phylogenetic analysis using whole plastomes of 39 Arecaceae species placed the Astrocaryum species sister to Acrocomia within the tribe Cocoseae. Finally, our data indicated substantial changes in the plastome structure and sequence of both species of the genus Astrocaryum, bringing new molecular markers, several structural and evolving features, which can be applied in several areas such as genetic, evolution, breeding, phylogeny and conservation strategies for both species.
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content type line 23
ISSN:0032-0935
1432-2048
DOI:10.1007/s00425-019-03217-z