Differential DNA methylation and gene expression during development of reproductive and vegetative organs in Ilex species

Differential epigenetic (DNA cytosine methylation) and gene expression patterns were investigated in reproductive and vegetative organs from Ilex paraguariensis and I. dumosa , at distinct developmental stages. We aimed at contributing towards elucidating major molecular changes underlying the sexua...

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Bibliographic Details
Published in:Journal of plant research 2021-05, Vol.134 (3), p.559-575
Main Authors: Cascales, Jimena, Acevedo, Raúl Maximiliano, Paiva, Daniela Ivana, Gottlieb, Alexandra Marina
Format: Article
Language:English
Subjects:
Amplification
Amplified fragment length polymorphism
Amplified Fragment Length Polymorphism Analysis
Biomarkers
Biomedical and Life Sciences
Cytosine
Deoxyribonucleic acid
Developmental stages
DNA
DNA Methylation
DNA, Plant
Epigenesis, Genetic
Epigenetics
Fragments
Gender
Gene Expression
Genetic diversity
Ilex
Ilex paraguariensis
Life Sciences
Organs
Plant Biochemistry
Plant Ecology
Plant Physiology
Plant Sciences
Polymorphism
Primordia
Regular Paper – Genetics/Developmental Biology
Sex differentiation
Sexing
Species
Statistical methods
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Summary:Differential epigenetic (DNA cytosine methylation) and gene expression patterns were investigated in reproductive and vegetative organs from Ilex paraguariensis and I. dumosa , at distinct developmental stages. We aimed at contributing towards elucidating major molecular changes underlying the sexual differentiation processes which, in these dioecious species, are completely unknown. Simultaneously, as a first step towards the development of an early sexing system, we searched for promising molecular markers. This was assessed through Methylation Sensitive Amplified Polymorphism (MSAP) and Amplified Fragment Length Polymorphism on cDNA (cDNA-AFLP) techniques, applying discriminant multivariate analyses, and bioinformatic characterization of differential fragments. A significant positive correlation was found between epigenetic and indirect ‘genetic’ information for both species, indicating influence of the genetic background on the epigenetic variation. Higher epigenetic than genetic diversities were estimated. Our outcomes showed up to 1.86 times more representation of mCG subepiloci than mCCG in all organs sampled. Along the maturing stages of floral buds, the frequency of mCG evidenced an incremental trend, whereas mCCG and unmethylated conditions showed opposite tendencies. Reproductive and vegetative samples tended to cluster apart based on epigenetic patterns; at gene expression level, organs exhibited clear-cut distinctive patterns, nonetheless profiles of young leaves and floral primordia resemble. Epigenetic and expression data allowed discrimination of I. dumosa ´s samples according to the gender of the donor; more elusive patterns were observed for I. paraguariensis . In total, 102 differentially methylated and expressed fragments were characterized bioinformatically. Forty-three were annotated in various functional categories; four candidate markers were validated through qPCR, finding statistical differences among organs but not among sexes. The methylation condition of epilocus C13m33 appears as indicative of gender in both species. Thirty-three organ-specific and 34 gender-specific methylated markers were discriminated and deserve further research, particularly those expressed in leaves. Our study contributes concrete candidate markers with potential for practical application.
ISSN:0918-9440
1618-0860
DOI:10.1007/s10265-021-01279-3