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Research uncovers how plants pass ‘memory’ onto offspring

admin by admin
April 14, 2023
in Agro News


New research may create an opportunity to prepare plants for growth under stress.

The research led by Keith Slotkin, PhD member of the Donald Danforth Plant Science Center’s work opens the door for scientists to equip plants with the tools they need to adapt to rising levels of carbon dioxide, high heat, and other stressors associated with climate change.

The newly published study in the journal The New Phytologist revealed that the transgenerational inheritance occurred via DNA methylation, the process by which plants “mark” DNA without changing the code of the DNA itself providing future generations’ cells with information on how to “read” that DNA.


Parent plant are exposed to poor growing conditions

The process was identified in two key plant species, moss and Arabidopsis, and creates the opportunity to prepare plants for growth under stress by exposing the parent plant to similarly unideal growing conditions.

“We now understand the specific DNA methylation factors that enable the memory of the stress response,” said Slotkin, “so in the future, we can manipulate this process to generate plants that are permanently resilient to that stress.”

With this knowledge, parent generations of plants can be intentionally grown in a controlled environment under stressful conditions that will push them to their limits, giving their progeny the benefit of increased resilience to that stressor.

Left to right: High-throughput live phenotyping of growing Arabidopsis plants; Identifying plant vs non-plant area; Identifying individual plants; Estimating plant leaf area of individual plants (Image courtesy of Donald Danforth Plant Science Center)

How does this impact crop production?

For example, a major crop like corn could be grown in extreme heat, at the brink of what it can survive, and the seed collected from that corn would result in a highly heat-resistant corn crop that could be grown in a location that is experiencing rising temperatures.

This unusual memory of the environment is unique to plants and distinct from how animals pass a genetic trait like eye color or height from one generation to the next. Lacking the ability to run away or seek shelter, plants must adapt to the elements to survive.

Stressors such as drought or extreme temperatures induce a stress response that lasts beyond the initial exposure to the stressor; for example, a plant that survives extreme heat early in its growing cycle will be primed to endure extreme heat again later on, even if the heat is more extreme the second time around.

Fascinatingly, this increased resilience doesn’t end with that individual plant’s life cycle — the plant can pass that behavior on, transmitting a cellular memory of stress to its offspring.

“Any clue that the parent plant can give to its offspring about the environment will help the offspring respond most efficiently to whatever they might experience,” said Danforth Center principal investigator Keith Slotkin, PhD. “It is ‘what doesn’t kill you makes you stronger’ in action, across generations.”

Image by Volodymyr_Shtun, Shutterstock

Translation to other crops

This phenomenon has been studied before, but the new study specifically focused on transgenerational inheritance of the CO2 response in two important plants: moss and Arabidopsis. Studying how plants react to high levels of CO2 is particularly important as climate change threatens to alter plant growth on a global scale.

Confirming transgenerational inheritance of high CO2 adaptations in moss is significant because it is evolutionarily distant from other plants that have been investigated, suggesting that this behavior is a broad rule across a wide variety of plants. Arabidopsis, a commonly studied model plant, allowed the team to closely study the mechanisms responsible for establishing the memory of stress and propagating that memory on to the next generation.

A grant from the National Science Foundation was awarded in support of this research in 2019. The Danforth Center was uniquely equipped to undertake this project; six different principal investigators—Keith Slotkin, Malia Gehan, Sona Pandey, Mao Li, Blake Meyers, and Noah Fahlgren—are collaborating on this research, and they depend on the world-class core facilities of the Danforth Center to do so.

The team is currently studying other important crops like rice and tobacco to collect data on their behavior. They are also pursuing an even deeper understanding of what is going on at the molecular level of these processes.

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