Overexpression of AtDREB1A Causes a Severe Dwarf Phenotype by Decreasing Endogenous Gibberellin Levels in Soybean [Glycine max (L.) Merr.

Haicui Suo,Yujuan Tang,Hai Nian,Juan Hao,Cunyi Yang,Mingluan Chen,Zhanyuan J Zhang,Kaixin Ye,Qibin Ma,Yuqi Feng,Miguel A Blazquez

doi:10.1371/journal.pone.0045568

Abstract

Gibberellic acids (GAs) are plant hormones that play fundamental roles in plant growth and developmental processes. Previous studies have demonstrated that three key enzymes of GA20ox, GA3ox, and GA2ox are involved in GA biosynthesis. In this study, the Arabidopsis DREB1A gene driven by the CaMV 35S promoter was introduced into soybean plants by Agrobacterium- mediated transformation. The results showed that the transgenic soybean plants exhibited a typical phenotype of GA-deficient mutants, such as severe dwarfism, small and dark-green leaves, and late flowering compared to those of the non-transgenic plants. The dwarfism phenotype was rescued by the application of exogenous GA3 once a week for three weeks with the concentrations of 144 µM or three times in one week with the concentrations of 60 µM. Quantitative RT-PCR analysis revealed that the transcription levels of the GA synthase genes were higher in the transgenic soybean plants than those in controls, whereas GA-deactivated genes except GmGA2ox4 showed lower levels of expression. The transcript level of GmGA2ox4 encoding the only deactivation enzyme using C20-GAs as the substrates in soybean was dramatically enhanced in transgenic plants compared to that of wide type. Furthermore, the contents of endogenous bioactive GAs were significantly decreased in transgenic plants than those of wide type. The results suggested that AtDREB1A could cause dwarfism mediated by GA biosynthesis pathway in soybean.

Highlights

Gibberellic acids (GAs) are a class of essential hormones that play a key role in plant growth and developmental processes during the entire life cycle [1]
Overexpression of AtDREB1A Reduced the Bioactive GAs Regarding the data above, we propose that the GA biosynthesis was interfered by overexpression of AtDREB1A through regulating the GA synthase genes, especially for activating the expression of GmGA2ox4, which could decrease the bioactive level in transgenic soybean plants
We demonstrated that overexpression AtDREB1A in soybean caused a dwarfism phenotype, probably by the upregulation of the GmGA2ox4 gene, which resulted in decreasing levels of active GAs and conferred dwarfism phenotypes

Summary

Introduction

Gibberellic acids (GAs) are a class of essential hormones that play a key role in plant growth and developmental processes during the entire life cycle [1]. The GmGA2ox genes except GmGA2ox belong to subgroup III, which includes Arabidopsis GA2ox to GA2ox6 [5]. Knockout mutants of five C19-GA 2-oxidases genes showed lower bioactive GAs content and growth retardation, indicating that the Arabidopsis C19-GA 2-oxidases mainly inactivate GA pathway [6]. GmGA2ox may potentially receives only C20 (GA12 and GA53, precursors of bioactive GAs) as substrates and belongs to subgroup C20 GA2oxs [5], which includes AtGA2ox and AtGA2ox, spinach GA2ox, and OsGA2ox4, 5, -6. Ectopic expression of AtGA2ox and AtGA2ox in transgenic tobacco (Nicotiana tabacum) led to a dwarf phenotype [7]. This was found with the activation of OsGA2ox in rice [8]. C20 GA2oxs were found to cause less severe GAdefective phenotypes than C19 GA2oxs in rice [9]

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Results

Conclusion