Genome-Wide Identification of AP2/ERF Transcription Factors in Cauliflower and Expression Profiling of the ERF Family under Salt and Drought Stresses.

Hui Li,Mei Wu,Yu Wang,Cong Li,Lihong Li,Chengbin Chen,Chunguo Wang,Zhanpin Han,Wenqin Song,Jiye Yuan

doi:10.3389/fpls.2017.00946

Hui Li, Mei Wu + Show 8 more

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https://doi.org/10.3389/fpls.2017.00946

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Abstract

The AP2/ERF transcription factors (TFs) comprise one of the largest gene superfamilies in plants. These TFs perform vital roles in plant growth, development, and responses to biotic and abiotic stresses. In this study, 171 AP2/ERF TFs were identified in cauliflower (Brassica oleracea L. var. botrytis), one of the most important horticultural crops in Brassica. Among these TFs, 15, 9, and 1 TFs were classified into the AP2, RAV, and Soloist family, respectively. The other 146 TFs belong to ERF family, which were further divided into the ERF and DREB subfamilies. The ERF subfamily contained 91 TFs, while the DREB subfamily contained 55 TFs. Phylogenetic analysis results indicated that the AP2/ERF TFs can be classified into 13 groups, in which 25 conserved motifs were confirmed. Some motifs were group- or subgroup- specific, implying that they are significant to the functions of the AP2/ERF TFs of these clades. In addition, 35 AP2/ERF TFs from the 13 groups were selected randomly and then used for expression pattern analysis under salt and drought stresses. The majority of these AP2/ERF TFs exhibited positive responses to these stress conditions. In specific, Bra-botrytis-ERF054a, Bra-botrytis-ERF056, and Bra-botrytis-CRF2a demonstrated rapid responses. By contrast, six AP2/ERF TFs were showed to delay responses to both stresses. The AP2/ERF TFs exhibiting specific expression patterns under salt or drought stresses were also confirmed. Further functional analysis indicated that ectopic overexpression of Bra-botrytis-ERF056 could increase tolerance to both salt and drought treatments. These findings provide new insights into the AP2/ERF TFs present in cauliflower, and offer candidate AP2/ERF TFs for further studies on their roles in salt and drought stress tolerance.

Highlights

Plant transcription factors (TFs) play vital roles in plant growth, development, and responses to various environmental stresses (Rashid et al, 2012; Shu et al, 2016)
The deduced amino acids of the AP2 domain from Bra-botrytisAP2/ERF-4 were distinct from those of the other APETALA2/ethyleneresponsive element binding factor (AP2/ERF) TFs, which was classified into the Soloist family
Identifying AP2/ERF TFs can considerably improve our understanding about the evolution and function of these TFs in various plant species

Summary

Introduction

Plant transcription factors (TFs) play vital roles in plant growth, development, and responses to various environmental stresses (Rashid et al, 2012; Shu et al, 2016). The APETALA2/ethyleneresponsive element binding factor (AP2/ERF) superfamily is one of the largest groups of TFs (Nakano et al, 2006), which contain one or two AP2 domains with 60–70 conserved amino acid residues. The AP2/ERF superfamily can be divided into the AP2, ERF, RAV, and Soloist families according to the number of AP2 domains and presence of other DNA binding domains (Nakano et al, 2006). The ERF family is further subdivided into the ERF and dehydration responsive element binding proteins (DREB) subfamilies on the basis of the similarities in amino acid residues of the AP2 domain. A small group of TFs with a highly diverged single AP2 domain (AP2-like domain) and gene structure is known as the Soloist family

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