Evolutionary Epigenetic Clocks and Epigenetic Inheritance in Plants (Frank Johannes)

In this episode of the Epigenetics Podcast, we talked with Dr. Frank Johannes from the Technical University of Munich in Freising about his work on evolutionary clocks and epigenetic inheritance in plants.

In this episode we discuss Dr. Johannes pursuits in understanding how heritable epigenetic variations, particularly through DNA methylation, affect phenotypic diversity in plants. He shared insights about groundbreaking research initiatives he has led, including one of the first population epigenetic studies in plants that effectively linked heritable DNA methylation changes to critical traits like flowering time and root length. This work underscored the importance of epigenetic factors that extend beyond traditional genetic sequences, illustrating a significant shift in how we comprehend inheritance and trait variation in organisms.

As we dug deeper into the science, we examined Dr. Johannes's innovative approaches to studying chromatin-based mechanisms of genome regulation, allowing for a nuanced understanding of epigenetic inheritance. His lab’s extensive phenotyping of Arabidopsis plants highlighted how inducing heritable variations in DNA methylation could lead to significant trait outcomes – results that have substantial implications for agriculture and understanding complex characteristics across generations.

The dialogue continued to unravel the dynamics between forward and backward epimutations, delving into their heritable nature and their rapid accumulation compared to traditional genetic mutations. Dr. Johannes overturned conventional understanding by presenting epigenetic processes that are not as static as once thought, providing compelling evidence that these spontaneous changes could inform evolutionary clocks; a concept that offers new avenues for studying the relationships between species over relatively short timeframes.

Moreover, we discussed the exciting concept of epigenetic clocks, which play a role in assessing the age of various species, including trees. The potential applications for such clocks in environmental management and the assessment of tree vitality further illuminated the practical impacts of Dr. Johannes's research. These insights also pave the way for sophisticated non-invasive methods of understanding plant biology, which can revolutionize forest management practices in the face of climate change and other ecological pressures.

References

• Colomé-Tatché M, Cortijo S, Wardenaar R, Morgado L, Lahouze B, Sarazin A, Etcheverry M, Martin A, Feng S, Duvernois-Berthet E, Labadie K, Wincker P, Jacobsen SE, Jansen RC, Colot V, Johannes F. Features of the Arabidopsis recombination landscape resulting from the combined loss of sequence variation and DNA methylation. Proc Natl Acad Sci U S A. 2012 Oct 2;109(40):16240-5. doi: 10.1073/pnas.1212955109. Epub 2012 Sep 17. PMID: 22988127; PMCID: PMC3479620.

• Cortijo S, Wardenaar R, Colomé-Tatché M, Gilly A, Etcheverry M, Labadie K, Caillieux E, Hospital F, Aury JM, Wincker P, Roudier F, Jansen RC, Colot V, Johannes F. Mapping the epigenetic basis of complex traits. Science. 2014 Mar 7;343(6175):1145-8. doi: 10.1126/science.1248127. Epub 2014 Feb 6. PMID: 24505129.

• van der Graaf A, Wardenaar R, Neumann DA, Taudt A, Shaw RG, Jansen RC, Schmitz RJ, Colomé-Tatché M, Johannes F. Rate, spectrum, and evolutionary dynamics of spontaneous epimutations. Proc Natl Acad Sci U S A. 2015 May 26;112(21):6676-81. doi: 10.1073/pnas.1424254112. Epub 2015 May 11. PMID: 25964364; PMCID: PMC4450394.

• Yao N, Zhang Z, Yu L, Hazarika R, Yu C, Jang H, Smith LM, Ton J, Liu L, Stachowicz JJ, Reusch TBH, Schmitz RJ, Johannes F. An evolutionary epigenetic clock in plants. Science. 2023 Sep 29;381(6665):1440-1445. doi: 10.1126/science.adh9443. Epub 2023 Sep 28. PMID: 37769069.

Related Episodes

• Transgenerational Inheritance and Epigenetic Imprinting in Plants (Mary Gehring)

• Epigenetic Clocks and Biomarkers of Ageing (Morgan Levine)

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