Identification of DNA Methylation and Transcriptomic Profiles Associated With Fruit Mealiness in Prunus persica (L.) Batsch
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Rothkegel, Karin
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Identification of DNA Methylation and Transcriptomic Profiles Associated With Fruit Mealiness in Prunus persica (L.) Batsch
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Abstract
Peach (Prunus persica) fruits have a fast ripening process and a shelf-life of days,
presenting a challenge for long-distance consuming markets. To prolong shelf-life,
peach fruits are stored at low temperatures (0 to 7 C) for at least two weeks, which
can lead to the development of mealiness, a physiological disorder that reduces fruit
quality and decreases consumer acceptance. Several studies have been made to
understand this disorder, however, the molecular mechanisms underlying mealiness
are not fully understood. Epigenetic factors, such as DNA methylation, modulate gene
expression according to the genetic background and environmental conditions. In this
sense, the aim of this work was to identify differentially methylated regions (DMRs) that
could affect gene expression in contrasting individuals for mealiness. Peach flesh was
studied at harvest time (E1 stage) and after cold storage (E3 stage) for 30 days. The
distribution of DNA methylations within the eight chromosomes of P. persica showed
higher methylation levels in pericentromeric regions and most differences between
mealy and normal fruits were at Chr1, Chr4, and Chr8. Notably, differences in Chr4
co-localized with previous QTLs associated with mealiness. Additionally, the number of
DMRs was higher in CHH cytosines of normal and mealy fruits at E3; however, most
DMRs were attributed to mealy fruits from E1, increasing at E3. From RNA-Seq data,
we observed that differentially expressed genes (DEGs) between normal and mealy
fruits were associated with ethylene signaling, cell wall modification, lipid metabolism,
oxidative stress and iron homeostasis. When integrating the annotation of DMRs and
DEGs, we identified a CYP450 82A and an UDP-ARABINOSE 4 EPIMERASE 1 gene
that were downregulated and hypermethylated in mealy fruits, coinciding with the colocalization
of a transposable element (TE). Altogether, this study indicates that genetic
differences between tolerant and susceptible individuals is predominantly affecting
epigenetic regulation over gene expression, which could contribute to a metabolic
alteration from earlier stages of development, resulting in mealiness at later stages.
Finally, this epigenetic mark should be further studied for the development of new
molecular tools in support of breeding programs.
Patrocinador
Fondo Nacional de Desarrollo Cientifico y Tecnologico (ANID-FONDECYT) 1200804
ANID-PFCHA/Doctorado Nacional 21170365
ANID-FONDECYT POSTDOCTORADO 3180306
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Artículo de publícación WoS Artículo de publicación SCOPUS
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Frontiers in Plant Science June 2021 Volume 12 Article 684130
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