Enterobactersp. SA187 mediates plant thermotolerance by chromatin modification of heat stress genes
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Abstract
Global warming has become a critical challenge to food safety, causing severe yield losses of major crops worldwide. Heat acclimation empowers plants to survive under extreme temperature conditions but the potential of beneficial microbes to make plants thermotolerant has not been considered so far. Here, we report that the endophytic bacterium Enterobacter sp. SA187 induces heat tolerance in Arabidopsis thaliana by reprogramming the plant transcriptome to a similar extent as acclimation. Acclimation induces priming of heat stress memory genes such as APX2 and HSP18.2 via the transcription factors HSFA1A, B, D, and E and the downstream master regulator HSFA2. hsfa1a,b,d,e and hsfa2 mutants compromised both acclimation and bacterial priming through the same pathway of HSF transcription factors. However, while acclimation transiently modifies H3K4me3 levels at heat stress memory gene loci, SA187 induces the constitutive priming of these loci. In summary, we demonstrate the molecular mechanism by which SA187 imparts thermotolerance in A. thaliana , suggesting that beneficial microbes might be a promising way to enhance crop production under global warming conditions.
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