Projecten per jaar
Uittreksel
Background
Despite the increasing number of epigenomic studies in plants, little is known about the forces that shape the methylome in long-lived woody perennials. The Lombardy poplar offers an ideal opportunity to investigate the impact of the individual environmental history of trees on the methylome.
Results
We present the results of three interconnected experiments on Lombardy poplar. In the first experiment, we investigated methylome variability during a growing season and across vegetatively reproduced generations. We found that ramets collected over Europe and raised in common conditions have stable methylomes in symmetrical CG-contexts. In contrast, seasonal dynamics occurred in methylation patterns in CHH context. In the second experiment, we investigated whether methylome patterns of plants grown in a non-parental environment correlate with the parental climate. We did not observe a biological relevant pattern that significantly correlates with the parental climate. Finally, we investigated whether the parental environment has persistent carry-over effects on the vegetative offspring’s phenotype. We combined new bud set observations of three consecutive growing seasons with former published bud set data. Using a linear mixed effects analysis, we found a statistically significant but weak short-term, parental carry-over effect on the timing of bud set. However, this effect was negligible compared to the direct effects of the offspring environment.
Conclusions
Genome-wide cytosine methylation patterns in symmetrical CG-context are stable in Lombardy poplar and appear to be mainly the result of random processes. In this widespread poplar clone, methylation patterns in CG-context can be used as biomarkers to infer a common ancestor and thus to investigate the recent environmental history of a specific Lombardy poplar. The Lombardy poplar shows high phenotypic plasticity in a novel environment which enabled this clonal tree to adapt and survive all over the temperate regions of the world.
Despite the increasing number of epigenomic studies in plants, little is known about the forces that shape the methylome in long-lived woody perennials. The Lombardy poplar offers an ideal opportunity to investigate the impact of the individual environmental history of trees on the methylome.
Results
We present the results of three interconnected experiments on Lombardy poplar. In the first experiment, we investigated methylome variability during a growing season and across vegetatively reproduced generations. We found that ramets collected over Europe and raised in common conditions have stable methylomes in symmetrical CG-contexts. In contrast, seasonal dynamics occurred in methylation patterns in CHH context. In the second experiment, we investigated whether methylome patterns of plants grown in a non-parental environment correlate with the parental climate. We did not observe a biological relevant pattern that significantly correlates with the parental climate. Finally, we investigated whether the parental environment has persistent carry-over effects on the vegetative offspring’s phenotype. We combined new bud set observations of three consecutive growing seasons with former published bud set data. Using a linear mixed effects analysis, we found a statistically significant but weak short-term, parental carry-over effect on the timing of bud set. However, this effect was negligible compared to the direct effects of the offspring environment.
Conclusions
Genome-wide cytosine methylation patterns in symmetrical CG-context are stable in Lombardy poplar and appear to be mainly the result of random processes. In this widespread poplar clone, methylation patterns in CG-context can be used as biomarkers to infer a common ancestor and thus to investigate the recent environmental history of a specific Lombardy poplar. The Lombardy poplar shows high phenotypic plasticity in a novel environment which enabled this clonal tree to adapt and survive all over the temperate regions of the world.
Oorspronkelijke taal | Engels |
---|---|
Volume | 22 |
Exemplaarnummer | 1 |
ISSN | 1741-7007 |
DOI's | |
Publicatiestatus | Gepubliceerd - 5-feb.-2024 |
Thematische Lijst 2020
- Bos
Thematische lijst
- Klimaat
EWI Biomedische wetenschappen
- B004-plantkunde
Taxonomische lijst
- populier (Populus spp.)
Beleidsmatig
- instandhoudingsdoelstellingen (IHD)
Technologisch
- genetische technieken
Vingerafdruk
Bekijk de onderzoeksthema's van 'Genome-wide methylome stability and parental effects in the worldwide distributed Lombardy poplar'. Samen vormen ze een unieke vingerafdruk.Projecten
- 1 Actief
-
Aanpassingsvermogen van inheemse boomsoorten aan klimaatverandering
Vanden Broeck, A. (Projectleider), Cox, K. (Medewerker), De Clercq, W. (Medewerker), De Cuyper, B. (Medewerker), De Maesschalck, G. (Medewerker), Goossens, S. (Medewerker), Neyrinck, S. (Medewerker), Van Breusegem, A. (Medewerker), Van De Pontseele, J. (Medewerker), Van Schoors, A. (Medewerker) & Verschaeve, L. (Medewerker)
31/12/19 → 30/12/25
Project: eigen initiatief (position paper)
-
Genome-wide methylome stability and parental effects in the worldwide distributed Lombardy poplar
Vanden Broeck, A., Meese, T., Verschelde, P., Cox, K., Heinze, B., Deforce, D., De Meester, E. & Van Nieuwerburgh, F., 15-mrt.-2023, In: bioRxiv. 48 blz.Onderzoeksoutput: Bijdrage aan tijdschrift › Preprint
Bestand829 Downloads (Pure) -
Variability in DNA Methylation and Generational Plasticity in the Lombardy Poplar, a Single Genotype Worldwide Distributed Since the Eighteenth Century
Vanden Broeck, A., Cox, K., Brys, R., Castiglione, S., Cicatelli, A., Guarino, F., Heinze, B., Steenackers, M. & Vander Mijnsbrugge, K., 13-nov.-2018, In: Frontiers in Plant Science. 9Onderzoeksoutput: Bijdrage aan tijdschrift › A1: Web of Science-artikel › peer review
Open AccessBestand1925 Downloads (Pure)