ORCID ID: 0000-0002-8568-7125 (J.B.-S.)The response of Arabidopsis thaliana to low-oxygen stress (hypoxia), such as during shoot submergence or root waterlogging, includes increasing the levels of ;50 hypoxia-responsive gene transcripts, many of which encode enzymes associated with anaerobic metabolism. Upregulation of over half of these mRNAs involves stabilization of five group VII ethylene response factor (ERF-VII) transcription factors, which are routinely degraded via the N-end rule pathway of proteolysis in an oxygen-and nitric oxide-dependent manner. Despite their importance, neither the quantitative contribution of individual ERF-VIIs nor the cis-regulatory elements they govern are well understood. Here, using single-and double-null mutants, the constitutively synthesized ERF-VIIs RELATED TO APETALA2.2 (RAP2.2) and RAP2.12 are shown to act redundantly as principle activators of hypoxia-responsive genes; constitutively expressed RAP2.3 contributes to this redundancy, whereas the hypoxia-induced HYPOXIA RESPONSIVE ERF1 (HRE1) and HRE2 play minor roles. An evolutionarily conserved 12-bp cis-regulatory motif that binds to and is sufficient for activation by RAP2.2 and RAP2.12 is identified through a comparative phylogenetic motif search, promoter dissection, yeast one-hybrid assays, and chromatin immunopurification. This motif, designated the hypoxia-responsive promoter element, is enriched in promoters of hypoxiaresponsive genes in multiple species.
Gene regulation is a dynamic process involving changes ranging from the remodeling of chromatin to preferential translation. To understand integrated nuclear and cytoplasmic gene regulatory dynamics, we performed a survey spanning the epigenome to translatome of Arabidopsis (Arabidopsis thaliana) seedlings in response to hypoxia and reoxygenation. This included chromatin assays (examining histones, accessibility, RNA polymerase II [RNAPII], and transcription factor binding) and three RNA assays (nuclear, polyadenylated, and ribosome-associated). Dynamic patterns of nuclear regulation distinguished stress-induced and growth-associated mRNAs. The rapid upregulation of hypoxia-responsive gene transcripts and their preferential translation were generally accompanied by increased chromatin accessibility, RNAPII engagement, and reduced Histone 2A.Z association. Hypoxia promoted a progressive upregulation of heat stress transcripts, as evidenced by RNAPII binding and increased nuclear RNA, with polyadenylated RNA levels only elevated after prolonged stress or reoxygenation. Promoters of rapidly versus progressively upregulated genes were enriched for cis-elements of ethylene-responsive and heat shock factor transcription factors, respectively. Genes associated with growth, including many encoding cytosolic ribosomal proteins, underwent distinct histone modifications, yet retained RNAPII engagement and accumulated nuclear transcripts during the stress. Upon reaeration, progressively upregulated and growth-associated gene transcripts were rapidly mobilized to ribosomes. Thus, multilevel nuclear regulation of nucleosomes, transcript synthesis, accumulation, and translation tailor transient stress responses.
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