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dc.contributor.authorAlioto, Tyleres_ES
dc.contributor.authorAlexiou, Konstantinos G.es_ES
dc.contributor.authorBardil, Ameliees_ES
dc.contributor.authorBarteri, Fabioes_ES
dc.contributor.authorCastanera, Raúles_ES
dc.contributor.authorCruz, Fernandoes_ES
dc.contributor.authorDhingra, Amites_ES
dc.contributor.authorDuval, Henries_ES
dc.contributor.authorFernández i Martí, Angel V.es_ES
dc.contributor.authorFrías, Leonores_ES
dc.contributor.authorGalán, Beatrizes_ES
dc.contributor.authorGarcía, José Luises_ES
dc.contributor.authorHowad, Werneres_ES
dc.contributor.authorGómez Garrido, Jéssicaes_ES
dc.contributor.authorGut, Martaes_ES
dc.contributor.authorJulca, Irenees_ES
dc.contributor.authorMorata, Jordies_ES
dc.contributor.authorPuigdomenech, Perees_ES
dc.contributor.authorRibeca, Paoloes_ES
dc.contributor.authorRubio Cabetas, María Josées_ES
dc.contributor.authorVlasova, Annaes_ES
dc.contributor.authorWirthensohn, Michellees_ES
dc.contributor.authorGarcía Más, Jordies_ES
dc.contributor.authorGabaldón, Tonies_ES
dc.contributor.authorCasacuberta, Josep M.es_ES
dc.contributor.authorArús, Perees_ES
dc.coverage.spatialHortofruticulturaes_ES
dc.date.accessioned2019-11-11T09:06:45Z-
dc.date.available2019-11-11T09:06:45Z-
dc.date.issued2020es_ES
dc.identifier.citationThe Plant Journal, vol. 101, pp. 455-472, (2020)-
dc.identifier.urihttp://hdl.handle.net/10532/4862-
dc.description.abstractWe sequenced the genome of the highly heterozygous almond Prunus dulcis cv. Texas combining short and long-read sequencing. We obtained a genome assembly totaling 227.6 Mb of the estimated 238 Mb almond genome size, of which 91% is anchored to eight pseudomolecules corresponding to its haploid chromosome complement, and annotated 27,969 protein-coding genes and 6,747 non-coding transcripts. By phylogenomic comparison with the genomes of 16 additional close and distant species we estimated that almond and peach (P. persica) diverged around 5.88 Mya. These two genomes are highly syntenic and show a high degree of sequence conservation (20 nucleotide substitutions/kb). However, they also exhibit a high number of presence/absence variants, many attributable to the movement of transposable elements (TEs). TEs have generated an important number of presence/absence variants between almond and peach, and we show that the recent history of TE movement seems markedly different between them. TEs may also be at the origin of important phenotypic differences between both species, and in particular, for the sweet kernel phenotype, a key agronomic and domestication character for almond. Here we show that in sweet almond cultivars, highly methylated TE insertions surround a gene involved in the biosynthesis of amygdalin, whose reduced expression has been correlated with the sweet almond phenotype. Altogether, our results suggest a key role of TEs in the recent history and diversification of almond and its close relative peach.en
dc.language.isoenes_ES
dc.relation.urihttps://onlinelibrary.wiley.com/doi/full/10.1111/tpj.14538es_ES
dc.rightsAtribución-NoComercial-SinDerivadas 3.0 España*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/3.0/es/*
dc.titleTransposons played a major role in the diversification between the closely related almond and peach genomes: Results from the almond genome sequenceen
dc.typeJournal Contribution*
dc.subject.agrovocPrunus dulcises
dc.subject.agrovocPrunus persicaes
dc.subject.agrovocGenomases
dc.subject.agrovocVariación genéticaes
dc.subject.agrovocEvoluciónes
dc.subject.agrovocTransposoneses
dc.description.statusPublishedes_ES
dc.type.refereedRefereedes_ES
dc.type.specifiedArticlees_ES
dc.bibliographicCitation.titleThe Plant Journalen
dc.relation.doihttps://doi.org/10.1111/tpj.14538es_ES
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