Evolutionary analysis of the Moringa oleifera genome reveals a recent burst of plastid to nucleus gene duplications

Evolutionary analysis of the Moringa oleifera genome reveals a recent burst of plastid to nucleus gene duplications

It is necessary to identify suitable alternative crops to ensure the nutritional demands of a growing global population. The genome of Moringa oleifera , a fast-growing drought-tolerant orphan crop with highly valuable agronomical, nutritional and pharmaceutical properties, has recently been reporte...

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Veröffentlicht in:Scientific reports 2020-10, Vol.10 (1), p.17646, Article 17646
Hauptverfasser: Ojeda-López, José, Marczuk-Rojas, Juan Pablo, Polushkina, Oliver Aleksandrei, Purucker, Darius, Salinas, María, Carretero-Paulet, Lorenzo
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Evolution, Molecular
Gene Duplication - genetics
Genes, Plant - genetics
Genome, Plant - genetics
Humanities and Social Sciences
Moringa oleifera - genetics
multidisciplinary
Phylogeny
Plastids - genetics
Science
Science (multidisciplinary)
Sequence Alignment
Synteny - genetics
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container_issue 1
container_start_page 17646
container_title Scientific reports
container_volume 10
creator Ojeda-López, José
Marczuk-Rojas, Juan Pablo
Polushkina, Oliver Aleksandrei
Purucker, Darius
Salinas, María
Carretero-Paulet, Lorenzo
description It is necessary to identify suitable alternative crops to ensure the nutritional demands of a growing global population. The genome of Moringa oleifera , a fast-growing drought-tolerant orphan crop with highly valuable agronomical, nutritional and pharmaceutical properties, has recently been reported. We model here gene family evolution in Moringa as compared with ten other flowering plant species. Despite the reduced number of genes in the compact Moringa genome, 101 gene families, grouping 957 genes, were found as significantly expanded. Expanded families were highly enriched for chloroplastidic and photosynthetic functions. Indeed, almost half of the genes belonging to Moringa expanded families grouped with their Arabidopsis thaliana plastid encoded orthologs. Microsynteny analysis together with modeling the distribution of synonymous substitutions rates, supported most plastid duplicated genes originated recently through a burst of simultaneous insertions of large regions of plastid DNA into the nuclear genome. These, together with abundant short insertions of plastid DNA, contributed to the occurrence of massive amounts of plastid DNA in the Moringa nuclear genome, representing 4.71%, the largest reported so far. Our study provides key genetic resources for future breeding programs and highlights the potential of plastid DNA to impact the structure and function of nuclear genes and genomes.
doi_str_mv 10.1038/s41598-020-73937-w
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subjects 631/114
631/181
631/208
631/449
Evolution, Molecular
Gene Duplication - genetics
Genes, Plant - genetics
Genome, Plant - genetics
Humanities and Social Sciences
Moringa oleifera - genetics
multidisciplinary
Phylogeny
Plastids - genetics
Science
Science (multidisciplinary)
Sequence Alignment
Synteny - genetics
title Evolutionary analysis of the Moringa oleifera genome reveals a recent burst of plastid to nucleus gene duplications
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