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Structural insights into Arabidopsis ethylene response factor 96 with an extended N-terminal binding to GCC box.

ABSTRACT: The phytohormone ethylene is widely involved in many developmental processes and is a crucial regulator of defense responses against biotic and abiotic stresses in plants. Ethylene-responsive element binding protein, a member of the APETALA2/ethylene response factor (AP2/ERF) superfamily, is a transcription factor that regulates stress-responsive genes by recognizing a specific cis-acting element of target DNA. A previous study showed only the NMR structure of the AP2/ERF domain of AtERF100 in complex with a GCC box DNA motif. In this report, we determined the crystal structure of AtERF96 in complex with a GCC box at atomic resolution. We analyzed the binding residues of the conserved AP2/ERF domain in the DNA recognition sequence. In addition to the AP2/ERF domain, an N-terminal ?-helix of AtERF96 participates in DNA interaction in the flanking region. We also demonstrated the structure of AtERF96 EDLL motif, a unique conserved motif in the group IX of AP2/ERF family, might involve in the transactivation of defense-related genes. Our study establishes the structural basis of the AtERF96 transcription factor in complex with the GCC box, as well as the DNA binding mechanisms of the N-terminal ?-helix and AP2/ERF domain.

SUBMITTER: Chen CY 

PROVIDER: S-EPMC7593309 | biostudies-literature | 2020 Nov

REPOSITORIES: biostudies-literature

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Structural insights into Arabidopsis ethylene response factor 96 with an extended N-terminal binding to GCC box.

Chen Chun-Yen CY   Lin Pei-Hsuan PH   Chen Kun-Hung KH   Cheng Yi-Sheng YS  

Plant molecular biology 20200819 4-5

The phytohormone ethylene is widely involved in many developmental processes and is a crucial regulator of defense responses against biotic and abiotic stresses in plants. Ethylene-responsive element binding protein, a member of the APETALA2/ethylene response factor (AP2/ERF) superfamily, is a transcription factor that regulates stress-responsive genes by recognizing a specific cis-acting element of target DNA. A previous study showed only the NMR structure of the AP2/ERF domain of AtERF100 in c  ...[more]

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