Genome Wide Identification and Expression Profiling of Ethylene Receptor Genes during Soybean Nodulation.

Youning Wang,Lin Zhu,Xia Li,Zhengxi Sun,Wei Yang,Chao Su,Haiyan Wu,Jinhong Yuan,Xiaodi Wang

doi:10.3389/fpls.2017.00859

Abstract

It has long been known that the gaseous plant hormone ethylene plays a key role in nodulation in legumes. The perception of ethylene by a family of five membrane-localized receptors is necessary to trigger the ethylene signaling pathway, which regulates various biological responses in Arabidopsis. However, a systematic analysis of the ethylene receptors in leguminous plants and their roles in nodule development is lacking. In this study, we performed a characterization of ethylene receptor genes based on the latest Glycine max genome sequence and a public microarray database. Eleven ethylene receptor family genes were identified in soybean through homology searches, and they were divided into two subgroups. Exon–intron analysis showed that the gene structures are highly conserved within each group. Further analysis of their expression patterns showed that these ethylene receptor genes are differentially expressed in various soybean tissues and organs, including functional nodules. Notably, the ethylene receptor genes showed different responses to rhizobial infection and Nod factors, suggesting a possible role for ethylene receptors and ethylene signaling in rhizobia–host cell interactions and nodulation in soybean. Together, these data indicate the functional divergence of ethylene receptor genes in soybean, and that some of these receptors mediate nodulation, including rhizobial infection, nodule development, and nodule functionality. These findings provide a foundation for further elucidation of the molecular mechanism by which the ethylene signaling pathway regulates nodulation in soybean, as well as other legumes.

Highlights

Symbiotic nitrogen fixation (SNF) plays critical roles in legume development and yield
Based on the data collected from the Phytozome website, five ethylene receptor genes, AtETR1, AtERS1, AtETR2, AtEIN4, and AtERS2, were used as queries against the G. max genome in the Plant Genome Duplication Database (Lee et al, 2012)
We performed a systematic analysis of the ethylene receptors in soybean, including their gene structures, conserved domains, and gene expression patterns in response to rhizobial infection

Summary

Introduction

Symbiotic nitrogen fixation (SNF) plays critical roles in legume development and yield. In Arabidopsis, ethylene is perceived by Ethylene Receptor 1 (ETR1)/ETR2 (Chen et al, 2002), Ethylene Response Sensor (ERS) 1/ERS2, and Ethylene Insensitive (EIN) 4 These proteins comprise a family of endoplasmic reticulum (ER) membrane-associated proteins that negatively regulate ethylene signaling (Bleecker and Kende, 2000; Chang and Stadler, 2001). ETR1, ETR2, and EIN4 have a C-terminal receiver domain of unknown function (Guo and Ecker, 2004) Despite their structural differences, all of these receptors are involved in ethylene perception and redundantly regulate ethylene-mediated biological processes affecting plant development and interactions with environment (Schaller and Bleecker, 1995; Hua and Meyerowitz, 1998; Guo and Ecker, 2004)

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Results

Conclusion