Plants can be primed by a stress cue to mount a faster or stronger activation of defense mechanisms upon subsequent stress. A crucial component of such stress priming is the modified reactivation of genes upon recurring stress; however, the underlying mechanisms of this are poorly understood. Here, we report that dozens of Arabidopsis thaliana genes display transcriptional memory, i.e. stronger upregulation after a recurring heat stress, that lasts for at least 3 days. We define a set of transcription factors involved in this memory response and show that the transcriptional memory results in enhanced transcriptional activation within minutes of the onset of a heat stress cue. Further, we show that the transcriptional memory is active in all tissues. It may last for up to a week, and is associated during this time with histone H3 lysine 4 hypermethylation. This transcriptional memory is cis-encoded, as we identify a promoter fragment that confers memory onto a heterologous gene. In summary, heat-induced transcriptional memory is a widespread and sustained response, and our study provides a framework for future mechanistic studies of somatic stress memory in higher plants.
A new cembranoidal diterpene, trocheliolide B (1), was isolated from the octocoral Sarcophyton trocheliophorum. The structure of 1 was elucidated on the basis of spectroscopic methods.
Elizabethkingia anophelis
is an emerging multidrug resistant pathogen caused several global outbreaks recently.
E. anophelis
was frequently misidentified as
E. meningoseptica
in the past by conventional culture methods; therefore, the prevalence was often underestimated. Through revised identification, an increasing trend of
E. anophelis
infection was noted in a tertiary hospital and a dominant lineage of strains was recognized by genotyping.
Elizabethkingia sp. strain 2-6 was collected from a water faucet in the intensive care unit of a medical center in Taiwan. The complete genome sequence and annotation are reported. Analysis of the genetic relatedness to the known Elizabethkingia genomes indicated that strain 2-6 may be a new genomospecies of Elizabethkingia.
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