表观遗传学
细胞生物学
转录因子
组蛋白
热冲击系数
拟南芥
生物
甲基化
基因
热休克蛋白
热冲击
化学
遗传学
热休克蛋白70
突变体
作者
Thomas Friedrich,Vicky Oberkofler,Inês Trindade,Simone Altmann,Krzysztof Brzezinka,Jörn Lämke,Michał Górka,Christian Kappel,Ewelina Sokołowska,Aleksandra Skirycz,Alexander Graf,Isabel Bäurle
标识
DOI:10.1038/s41467-021-23786-6
摘要
Adaptive plasticity in stress responses is a key element of plant survival strategies. For instance, moderate heat stress (HS) primes a plant to acquire thermotolerance, which allows subsequent survival of more severe HS conditions. Acquired thermotolerance is actively maintained over several days (HS memory) and involves the sustained induction of memory-related genes. Here we show that FORGETTER3/ HEAT SHOCK TRANSCRIPTION FACTOR A3 (FGT3/HSFA3) is specifically required for physiological HS memory and maintaining high memory-gene expression during the days following a HS exposure. HSFA3 mediates HS memory by direct transcriptional activation of memory-related genes after return to normal growth temperatures. HSFA3 binds HSFA2, and in vivo both proteins form heteromeric complexes with additional HSFs. Our results indicate that only complexes containing both HSFA2 and HSFA3 efficiently promote transcriptional memory by positively influencing histone H3 lysine 4 (H3K4) hyper-methylation. In summary, our work defines the major HSF complex controlling transcriptional memory and elucidates the in vivo dynamics of HSF complexes during somatic stress memory.
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