CpLEA5, the Late Embryogenesis Abundant Protein Gene from Chimonanthus praecox, Possesses Low Temperature and Osmotic Resistances in Prokaryote and Eukaryotes.

Shihong Zhang,Xilong Liang,Yiling Liu,Lixia Xie

doi:10.3390/ijms161126006

Abstract

Plants synthesize and accumulate a series of stress-resistance proteins to protect normal physiological activities under adverse conditions. Chimonanthus praecox which blooms in freezing weather accumulates late embryogenesis abundant proteins (LEAs) in flowers, but C. praecox LEAs are little reported. Here, we report a group of five LEA genes of C. praecox (CpLEA5, KT727031). Prokaryotic-expressed CpLEA5 was employed in Escherichia coli to investigate bioactivities and membrane permeability at low-temperature. In comparison with the vacant strains, CpLEA5-containing strains survived in a 20% higher rate; and the degree of cell membrane damage in CpLEA5-containing strains was 55% of that of the vacant strains according to a conductivity test, revealing the low-temperature resistance of CpLEA5 in bacteria. CpLEA5 was also expressed in Pichia pastoris. Interestingly, besides low-temperature resistance, CpLEA5 conferred high resistance to salt and alkali in CpLEA5 overexpressing yeast. The CpLEA5 gene was transferred into Arabidopsis thaliana to also demonstrate CpLEA5 actions in plants. As expected, the transgenic lines were more resistant against low-temperature and drought while compared with the wild type. Taken together, CpLEA5-conferred resistances to several conditions in prokaryote and eukaryotes could have great value as a genetic technology to enhance osmotic stress and low-temperature tolerance.

Highlights

Low-temperature damage is the main factor limiting plant growth and crop production in North and Northeast China
Late embryogenesis abundant proteins (LEA) which were first identified and characterized in cotton (Gossypium hirsutum) [7,8] are generated in large quantities in seeds through the expression of extremely hydrophilic genes induced by cold acclimation (CA) [9]
C. praecox LEA5 gene (CpLEA5) is a group five LEA (LEA5) protein, from a C. praecox flower cDNA library constructed with Escherichia coli via an expressed sequence tag analysis

Summary

Introduction

Tolerance to low temperature by overwintering plants accumulates during exposure to temperatures near to but greater than the freezing point [1,2]. This process is called cold acclimation (CA), which develops by activating the expression of particular genes [2]. Late embryogenesis abundant proteins (LEA) which were first identified and characterized in cotton (Gossypium hirsutum) [7,8] are generated in large quantities in seeds through the expression of extremely hydrophilic genes induced by CA [9]. LEA proteins accumulate substantially in plants under extreme water stress (e.g., low- or high-salt stress and dehydration) [10]. LEA proteins protect plants under water stress [3,12]

Results

Discussion

Conclusion