Heterologous Expression of Three  Ammopiptanthus mongolicus  Dehydrin Genes Confers Abiotic Stress Tolerance in  Arabidopsis thaliana

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Abstract

Ammopiptanthus mongolicus, a xerophyte plant that belongs to the family Leguminosae, adapts to extremely arid, hot, and cold environments, making it an excellent woody plant to study the molecular mechanisms underlying abiotic stress tolerance. Three dehydrin genes, AmDHN132, AmDHN154, and AmDHN200 were cloned from abiotic stress treated A. mongolicus seedlings. Cytomembrane-located AmDHN200, nucleus-located AmDHN154, and cytoplasm and nucleus-located AmDHN132 were characterized by constitutive overexpression of their genes in Arabidopsis thaliana. Overexpression of AmDHN132, AmDHN154, and AmDHN200 in transgenic Arabidopsis improved salt, osmotic, and cold tolerances, with AmDHN132 having the largest effect, whereas the growth of transformed plants is not negatively affected. These results indicate that AmDHNs contribute to the abiotic stress tolerance of A. mongolicus and that AmDHN genes function differently in response to abiotic stresses. Furthermore, they have the potential to be used in the genetic engineering of stress tolerance in higher plants.

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Plant dehydrins and stress tolerance: versatile proteins for complex mechanisms.

Moez Hanin, Faiçal Brini, Chantal Ebel … (2011)

Dehydrins (DHNs), or group 2 LEA (Late Embryogenesis Abundant) proteins, play a fundamental role in plant response and adaptation to abiotic stresses. They accumulate typically in maturing seeds or are induced in vegetative tissues following salinity, dehydration, cold, and freezing stress. The generally accepted classification of dehydrins is based on their structural features, such as the presence of conserved sequences, designated as Y, S, and K segments. The K segment representing a highly conserved 15 amino acid motif forming amphiphilic α-helix is especially important since it has been found in all dehydrins. Since more than 20 years, they are thought to play an important protective role during cellular dehydration but their precise function remains unclear. This review outlines the current status of the progress made towards the structural, physico-chemical and functional characterization of plant dehydrins and how these features could be exploited in improving stress tolerance in plants.

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Common amino acid sequence domains among the LEA proteins of higher plants.

Rainbow Ho, Gustavo L. Duré, Blake T. Thomas … (1989)

LEA proteins are late embryogenesis abundant in the seeds of many higher plants and are probably universal in occurrence in plant seeds. LEA mRNAs and proteins can be induced to appear at other stages in the plant's life by desiccation stress and/or treatment with the plant hormone abscisic acid (ABA). A role in protecting plant structures during water loss is likely for these proteins, with ABA functioning in the stress transduction process. Presented here are conserved tracts of amino acid sequence among LEA proteins from several species that may represent domains functionally important in desiccation protection. Curiously, an 11 amino acid sequence motif is found tandemly repeated in a group of LEA proteins of vastly different sizes. Analysis of this motif suggests that it exists as an amphiphilic α helix which may serve as the basis for higher order structure.

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Dehydrins: A commonalty in the response of plants to dehydration and low temperature

Timothy Close (1997)

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Journal

Journal ID (nlm-ta): Plants (Basel)

Journal ID (iso-abbrev): Plants (Basel)

Journal ID (publisher-id): plants

Title: Plants

Publisher: MDPI

ISSN (Electronic): 2223-7747

Publication date (Electronic): 05 February 2020

Publication date Collection: February 2020

Volume: 9

Issue: 2

Electronic Location Identifier: 193

Affiliations

[1 ]Beijing Advanced Innovation Center for Tree Breeding by Molecular Design, National Engineering Laboratory for Tree Breeding, College of Biological Sciences and Biotechnology, Beijing Forestry University, Beijing 100083, China

[2 ]College of Life Science, Pecking University, Beijing 100083, China

Author notes

[* ]Correspondence: chenyuzhen@ 123456bjfu.edu.cn (Y.C.); lucunfu@ 123456bjfu.edu.cn (C.L.); Tel.: +86-10-62338346 (Y.C.)

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Shaoliang Chen https://orcid.org/0000-0001-7511-3067

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Publisher ID: plants-09-00193

DOI: 10.3390/plants9020193

PMC ID: 7076708

PubMed ID: 32033313

SO-VID: 0ee4fd73-539f-4e2c-802d-42170ee1f1de

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Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

Heterologous Expression of Three Ammopiptanthus mongolicus Dehydrin Genes Confers Abiotic Stress Tolerance in Arabidopsis thaliana

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Abstract

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Arabidopsis genomics

Most cited references 42

Plant dehydrins and stress tolerance: versatile proteins for complex mechanisms.

Common amino acid sequence domains among the LEA proteins of higher plants.

Dehydrins: A commonalty in the response of plants to dehydration and low temperature

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