Abstract

BackgroundGermin-like superfamily members are ubiquitously expressed in various plant species and play important roles in plant development and defense. Although several GLPs have been identified in peanut (Arachis hypogaea L.), their roles in development and defense remain unknown. In this research, we study the spatiotemporal expression of AhGLPs in peanut and their functions in plant defense.ResultsWe have identified three new AhGLP members (AhGLP3b, AhGLP5b and AhGLP7b) that have distinct but very closely related DNA sequences. The spatial and temporal expression profiles revealed that each peanut GLP gene has its distinct expression pattern in various tissues and developmental stages. This suggests that these genes all have their distinct roles in peanut development. Subcellular location analysis demonstrated that AhGLP2 and 5 undergo a protein transport process after synthesis. The expression of all AhGLPs increased in responding to Aspergillus flavus infection, suggesting AhGLPs' ubiquitous roles in defense to A. flavus. Each AhGLP gene had its unique response to various abiotic stresses (including salt, H2O2 stress and wound), biotic stresses (including leaf spot, mosaic and rust) and plant hormone stimulations (including SA and ABA treatments). These results indicate that AhGLPs have their distinct roles in plant defense. Moreover, in vivo study of AhGLP transgenic Arabidopsis showed that both AhGLP2 and 3 had salt tolerance, which made transgenic Arabidopsis grow well under 100 mM NaCl stress.ConclusionsFor the first time, our study analyzes the AhGLP gene expression profiles in peanut and reveals their roles under various stresses. These results provide an insight into the developmental and defensive roles of GLP gene family in peanut.

Highlights

  • Peanut (Arachis hypogaea L.) is one of the major worldwide oil crops

  • According to their sequence similarity, we termed them as AhGLP3a, AhGLP5a and AhGLP7a

  • The genetic polymorphism between AhGLP3a and AhGLP3b includes two point mutations and one deletion (Table 1), which lead to 3 amino acid changes

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Summary

Introduction

Peanut (Arachis hypogaea L.) is one of the major worldwide oil crops. Peanut has very high nutritional and commercial value. It is estimated that yield losses of peanut are up to about 30% due to various disease and adverse physiological conditions [1]. It is an urge task to identify and characterized resistant genes in peanut development and defense. An insight into functions and usage of resistant genes will make a great progress in peanut cultivation. Germin-like superfamily members are ubiquitously expressed in various plant species and play important roles in plant development and defense. Several GLPs have been identified in peanut (Arachis hypogaea L.), their roles in development and defense remain unknown. We study the spatiotemporal expression of AhGLPs in peanut and their functions in plant defense

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