Literature DB >> 26657708

A hit-and-run heat shock factor governs sustained histone methylation and transcriptional stress memory.

Jörn Lämke1, Krzysztof Brzezinka1, Simone Altmann1, Isabel Bäurle2.   

Abstract

In nature, plants often encounter chronic or recurring stressful conditions. Recent results indicate that plants can remember a past exposure to stress to be better prepared for a future stress incident. However, the molecular basis of this is poorly understood. Here, we report the involvement of chromatin modifications in the maintenance of acquired thermotolerance (heat stress [HS] memory). HS memory is associated with the accumulation of histone H3 lysine 4 di- and trimethylation at memory-related loci. This accumulation outlasts their transcriptional activity and marks them as recently transcriptionally active. High accumulation of H3K4 methylation is associated with hyper-induction of gene expression upon a recurring HS. This transcriptional memory and the sustained accumulation of H3K4 methylation depend on HSFA2, a transcription factor that is required for HS memory, but not initial heat responses. Interestingly, HSFA2 associates with memory-related loci transiently during the early stages following HS. In summary, we show that transcriptional memory after HS is associated with sustained H3K4 hyper-methylation and depends on a hit-and-run transcription factor, thus providing a molecular framework for HS memory.
© 2015 The Authors.

Entities:  

Keywords:  H3K4 methylation; chromatin; heat shock transcription factor; priming; transcriptional memory

Mesh:

Substances:

Year:  2015        PMID: 26657708      PMCID: PMC4718455          DOI: 10.15252/embj.201592593

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  56 in total

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  79 in total

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Authors:  Jörn Lämke; Krzysztof Brzezinka; Isabel Bäurle
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7.  Histone Modifications Form Epigenetic Regulatory Networks to Regulate Abiotic Stress Response.

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8.  The Systems Architecture of Molecular Memory in Poplar after Abiotic Stress.

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