How plants cope with stress and damage?
According to the research a gene that integrates numerous chloroplast-to-nucleus retrograde signalling pathways, GUN1, also plays an important role in how proteins are made in damaged chloroplasts, which provides new insight into how plants respond t
Washington D.C.: New research has found that plants use chloroplast-to-nucleus communication to cope with stress or damage caused by different sources. Plants regulate the genes expression via this communication that helps them to deal with various damage and stress. The study published in the Proceedings of the National Academy of Sciences (PNAS) could help biologists breed plants that can better withstand environmental stressors.
According to the research a gene that integrates numerous chloroplast-to-nucleus retrograde signalling pathways, GUN1, also plays an important role in how proteins are made in damaged chloroplasts, which provides new insight into how plants respond to stress.
"Climate change holds the potential to affect our food system dramatically. When plants are stressed, like in a drought, they produce lower crop yields. If we understand how plants respond to stress, then perhaps we can develop a way to increase their resistance and keep food production high," said Joanne Chory, senior author of the paper.
In plant cells, structures called chloroplasts convert energy from sunlight into chemical energy (photosynthesis). Normally, the nucleus of the cell transmits information to the chloroplasts to maintain steady energy production.
However, in a stressful environment, chloroplasts send an alarm back to the cell nucleus using retrograde signalling (creating a chloroplast-to-nucleus communication feedback loop). This SOS prompts a response that helps regulate gene expression in the chloroplasts and the nucleus to optimise energy production from sunlight.
Previously, the Chory lab identified a group of genes, including GUN1 that influence other genes' expression in the cell when the plant experiences stress. GUN1 accumulates under stressful conditions but the exact molecular function of GUN1 has been difficult to decipher, until now.
"Plants often experience environmental stressors, so there must be a chloroplast-to-nucleus communication pathway that helps the plant know when to conserve energy when an injury occurs. GUN1 turns out to play a big role in this," said Xiaobo Zhao, first author of the study.
To understand how GUN1 regulates chloroplast-to-nucleus communication, the scientists observed plants with functional and nonfunctional GUN1 under pharmacological treatments that could damage chloroplasts.
In plants without GUN1, gene expression changed, as did RNA editing in chloroplasts. (RNA editing is a modification of the RNA that changes the identity of nucleotides so that the information in the mature RNA differs from that defined in the genome, altering the instructions for making proteins.) Some areas of RNA had more editing and other locations had less editing, suggesting that GUN1 plays a role in regulating chloroplast RNA editing.
After further analysis, the team unexpectedly found that GUN1 partners with another protein, MORF2 (an essential component of the plant RNA editing complex), to affect the efficiency of RNA editing during chloroplast-to-nucleus communication in damaged chloroplasts.
Greater activity of MORF2 led to widespread editing changes as well as defects in chloroplast and leaf development even under normal growth conditions. During periods of stress and injury, MORF2 overproduction also led to a disruption of chloroplast-to-nucleus communication.
"Taken together, these findings suggest a possible link between chloroplast-to-nucleus communication and chloroplast RNA editing, which are important regulatory functions for flowering plants, especially during stress," said Chory.
Next, the researchers plan to examine the mechanism of how the RNA editing changes in chloroplasts activate signals that can be relayed to the nucleus, and how these modifications alter the ability of the plant to respond to stress.
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