Plants can feel a rise in temperature
Washington: A new research by scientists has shown how plants not only ‘feel’ a rise in temperature, but also coordinate an appropriate response, by activating hundreds of genes and deactivating others.
The findings may help to explain how plants will respond in the face of climate change and offer scientists new leads in the quest to create crop plants better able to withstand high temperature stress, according to the researchers.
“We’ve uncovered a master regulator of the entire temperature transcriptome,” said Philip Wigge of John Innes Centre in the United Kingdom, in reference to the thousands of genes that are differentially activated under warmer versus cooler conditions.
Using the model plant Arabidopsis thaliana, the researchers show that a key ingredient for plants’ temperature sensing ability is a specialized histone protein, dubbed H2A.Z, that wraps DNA into a more tightly packed structure known as a nucleosome.
As temperatures rise, H2A.Z histones allow DNA to progressively unwrap, leading nucleosomes to loosen up, they show.
“When it gets warmer, the DNA unwraps,” Wigge said, which allows some genes to switch on and others to switch off.
They aren’t yet sure exactly how all that happens, but Wigge suspects the altered nucleosome structure gives access to sites on the DNA where activators of some genes can bind along with repressors of other genes.
“In addition to H2A.Z containing nucleosomes having more tightly wrapped DNA, our results suggest that the degree of unwrapping may also be responsive to temperature,” according to the researchers.
“This result suggests a direct mechanism by which temperature may influence gene expression, since it has been shown that RNA Pol II does not actively invade nucleosomes, but waits for local unwrapping of DNA from nucleosomes before extending transcription,” said Wigge.
“In this way, genes with a paused RNA Pol II will show increased transcription with greater temperature as local unwrapping is increased,” he added.
The basic discovery could ultimately prove to have important implications for world food security.
According to Wigge, the new understanding of plants’ temperature sensitivity may prove to be critical for breeding more temperature-resistant crops.
His team plans to explore this possibility by studying the role of these H2A.Z histones in a model plant that is more closely related to crops.
“We’d like to engineer a plant where we can control the histones in particular tissues such that it is selectively ‘blind’ to different temperatures,” Wigge said.
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