Arabidopsis Ethylene-Responsive Element Binding Factors Act as Transcriptional Activators or Repressors of GCC Box-Mediated Gene Expression

doi:10.1105/tpc.12.3.393

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Arabidopsis Ethylene-Responsive Element Binding Factors Act as Transcriptional Activators or Repressors of GCC Box–Mediated Gene Expression

Susan Y. Fujimoto^a, Masaru Ohta^a, Akemi Usui^a, Hideaki Shinshi^a, and Masaru Ohme-Takagi^a
^a Plant Molecular Biology Laboratory, National Institute of Bioscience and Human-Technology, Tsukuba 305-8566, Japan

Correspondence to: Masaru Ohme-Takagi, masaru{at}nibh.go.jp (E-mail), 81-298-61-6090 (fax)

Ethylene-responsive element binding factors (ERFs) are membersof a novel family of transcription factors that are specificto plants. A highly conserved DNA binding domain known as theERF domain is the unique feature of this protein family. Tocharacterize in detail this family of transcription factors,we isolated Arabidopsis cDNAs encoding five different ERF proteins(AtERF1 to AtERF5) and analyzed their structure, DNA bindingpreference, transactivation ability, and mRNA expression profiles.The isolated AtERFs were placed into three classes based onamino acid identity within the ERF domain, although all fivedisplayed GCC box–specific binding activity. AtERF1, AtERF2,and AtERF5 functioned as activators of GCC box–dependenttranscription in Arabidopsis leaves. By contrast, AtERF3 andAtERF4 acted as repressors that downregulated not only basaltranscription levels of a reporter gene but also the transactivationactivity of other transcription factors. The AtERF genes weredifferentially regulated by ethylene and by abiotic stress conditions,such as wounding, cold, high salinity, or drought, via ETHYLENE-INSENSITIVE2(EIN2)–dependent or –independent pathways. Cycloheximide,a protein synthesis inhibitor, also induced marked accumulationof AtERF mRNAs. Thus, we conclude that AtERFs are factors thatrespond to extracellular signals to modulate GCC box–mediatedgene expression positively or negatively.

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