Molecular approaches unravel the mechanism of acid soil tolerance in plants

Molecular approaches unravel the mechanism of acid soil tolerance in plants

Acid soil is a worldwide problem to plant production. Acid toxicity is mainly caused by a lack of essential nutrients in the soil and excessive toxic metals in the plant root zone. Of the toxic metals, aluminum (Al) is the most prevalent and most toxic. Plant species have evolved to variable levels...

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Main Authors: Miao Bian, Meixue Zhou, Dongfa Sun, Chengdao Li
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2013-12-01
Series:Crop Journal
Subjects:
Soil acidity
Aluminum
Marker-assisted selection
Mechanism
Online Access:http://www.sciencedirect.com/science/article/pii/S2214514113000172
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spelling doaj-a8c03e4d21484c8ebbe7dbbae04ed45f2021-03-02T10:57:57ZengKeAi Communications Co., Ltd.Crop Journal2095-54212214-51412013-12-011291104doi:10.1016/j.cj.2013.08.002Molecular approaches unravel the mechanism of acid soil tolerance in plants Miao Bian0Meixue Zhou1Dongfa Sun2Chengdao Li3Tasmanian Institute of Agriculture, University of Tasmania, P.O. Box 46, Kings Meadows, Tas 7249, Australia; College of Plant Science and Technology, Huazhong Agricultural University, Wuhan, Hubei 430070, China;Department of Agriculture & Food WA, 3 Baron-Hay Court, South Perth, WA 6155, AustraliaTasmanian Institute of Agriculture, University of Tasmania, P.O. Box 46, Kings Meadows, Tas 7249, AustraliaCollege of Plant Science and Technology, Huazhong Agricultural University, Wuhan, Hubei 430070, ChinaDepartment of Agriculture & Food WA, 3 Baron-Hay Court, South Perth, WA 6155, AustraliaAcid soil is a worldwide problem to plant production. Acid toxicity is mainly caused by a lack of essential nutrients in the soil and excessive toxic metals in the plant root zone. Of the toxic metals, aluminum (Al) is the most prevalent and most toxic. Plant species have evolved to variable levels of tolerance to aluminum enabling breeding of high Al-tolerant cultivars. Physiological and molecular approaches have revealed some mechanisms of Al toxicity in higher plants. Mechanisms of plant tolerance to Al stress include: 1) exclusion of Al from the root tips, and 2) absorbance, but tolerance of Al in root cells. Organic acid exudation to chelate Al is a feature shared by many higher plants. The future challenge for Al tolerance studies is the identification of novel tolerance mechanisms and the combination of different mechanisms to achieve higher tolerance. Molecular approaches have led to significant progress in explaining mechanisms and detection of genes responsible for Al tolerance. Gene-specific molecular markers offer better options for marker-assisted selection in breeding programs than linked marker strategies. This paper mainly focuses on recent progress in the use of molecular approaches in Al tolerance research.http://www.sciencedirect.com/science/article/pii/S2214514113000172Soil acidityAluminumMarker-assisted selectionMechanism
collection DOAJ
language English
format Article
sources DOAJ
author Miao Bian
Meixue Zhou
Dongfa Sun
Chengdao Li
spellingShingle Miao Bian
Meixue Zhou
Dongfa Sun
Chengdao Li
Molecular approaches unravel the mechanism of acid soil tolerance in plants
Crop Journal
Soil acidity
Aluminum
Marker-assisted selection
Mechanism
author_facet Miao Bian
Meixue Zhou
Dongfa Sun
Chengdao Li
author_sort Miao Bian
title Molecular approaches unravel the mechanism of acid soil tolerance in plants
title_short Molecular approaches unravel the mechanism of acid soil tolerance in plants
title_full Molecular approaches unravel the mechanism of acid soil tolerance in plants
title_fullStr Molecular approaches unravel the mechanism of acid soil tolerance in plants
title_full_unstemmed Molecular approaches unravel the mechanism of acid soil tolerance in plants
title_sort molecular approaches unravel the mechanism of acid soil tolerance in plants
publisher KeAi Communications Co., Ltd.
series Crop Journal
issn 2095-5421
2214-5141
publishDate 2013-12-01
description Acid soil is a worldwide problem to plant production. Acid toxicity is mainly caused by a lack of essential nutrients in the soil and excessive toxic metals in the plant root zone. Of the toxic metals, aluminum (Al) is the most prevalent and most toxic. Plant species have evolved to variable levels of tolerance to aluminum enabling breeding of high Al-tolerant cultivars. Physiological and molecular approaches have revealed some mechanisms of Al toxicity in higher plants. Mechanisms of plant tolerance to Al stress include: 1) exclusion of Al from the root tips, and 2) absorbance, but tolerance of Al in root cells. Organic acid exudation to chelate Al is a feature shared by many higher plants. The future challenge for Al tolerance studies is the identification of novel tolerance mechanisms and the combination of different mechanisms to achieve higher tolerance. Molecular approaches have led to significant progress in explaining mechanisms and detection of genes responsible for Al tolerance. Gene-specific molecular markers offer better options for marker-assisted selection in breeding programs than linked marker strategies. This paper mainly focuses on recent progress in the use of molecular approaches in Al tolerance research.
topic Soil acidity
Aluminum
Marker-assisted selection
Mechanism
url http://www.sciencedirect.com/science/article/pii/S2214514113000172
work_keys_str_mv AT miaobian molecularapproachesunravelthemechanismofacidsoiltoleranceinplants
AT meixuezhou molecularapproachesunravelthemechanismofacidsoiltoleranceinplants
AT dongfasun molecularapproachesunravelthemechanismofacidsoiltoleranceinplants
AT chengdaoli molecularapproachesunravelthemechanismofacidsoiltoleranceinplants
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