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Literature DB >> 22459757

Transcriptional regulation of aluminium tolerance genes.

Emmanuel Delhaize¹, Jian Feng Ma, Peter R Ryan.

Abstract

Trivalent aluminium (Al(3+)) is the major toxin encountered by plants on acid soils. These cations inhibit root growth by damaging cells at the root apex. The physiology and genetics of Al(3+) tolerance mechanisms involving organic anion efflux from roots have now been investigated in a range of species. Over the past decade, genes encoding these and other newly discovered mechanisms of tolerance have been cloned. In this review, we describe the genes controlling the genotypic variation in Al(3+) tolerance for several important crop species. We focus on recent insights into the transcriptional regulation of these and other genes involved in Al(3+) tolerance and discuss the pathways coordinating their expression in Arabidopsis and rice. Crown

Entities: Chemical Species

Mesh：

Substances：
Aluminum

Year: 2012 PMID： 22459757 DOI： 10.1016/j.tplants.2012.02.008

Source DB: PubMed Journal: Trends Plant Sci ISSN： 1360-1385 Impact factor: 18.313

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Cited

57 in total

1. Elevated CO2 (free-air CO2 enrichment) increases grain yield of aluminium-resistant but not aluminium-sensitive wheat (Triticum aestivum) grown in an acid soil.

Authors: Jinlong Dong; Stephen Grylls; James Hunt; Roger Armstrong; Emmanuel Delhaize; Caixian Tang
Journal: Ann Bot Date: 2019-02-15 Impact factor: 4.357

2. Up-regulation of a magnesium transporter gene OsMGT1 is required for conferring aluminum tolerance in rice.

Authors: Zhi Chang Chen; Naoki Yamaji; Ritsuko Motoyama; Yoshiaki Nagamura; Jian Feng Ma
Journal: Plant Physiol Date: 2012-06-25 Impact factor: 8.340

3. Retrotransposon Insertion and DNA Methylation Regulate Aluminum Tolerance in European Barley Accessions.

Authors: Miho Kashino-Fujii; Kengo Yokosho; Naoki Yamaji; Miki Yamane; Daisuke Saisho; Kazuhiro Sato; Jian Feng Ma
Journal: Plant Physiol Date: 2018-08-09 Impact factor: 8.340

4. Alleles of organic acid transporter genes are highly correlated with wheat resistance to acidic soil in field conditions.

Authors: Jorge G Aguilera; João A D Minozzo; Diliane Barichello; Claúdia M Fogaça; José Pereira da Silva; Luciano Consoli; Jorge F Pereira
Journal: Theor Appl Genet Date: 2016-03-23 Impact factor: 5.699

5. Identification of a hydrolyzable tannin, oenothein B, as an aluminum-detoxifying ligand in a highly aluminum-resistant tree, Eucalyptus camaldulensis.

Authors: Ko Tahara; Koh Hashida; Yuichiro Otsuka; Seiji Ohara; Katsumi Kojima; Kenji Shinohara
Journal: Plant Physiol Date: 2013-12-31 Impact factor: 8.340

6. A basic helix-loop-helix transcription factor, PtrbHLH, of Poncirus trifoliata confers cold tolerance and modulates peroxidase-mediated scavenging of hydrogen peroxide.

Authors: Xiao-San Huang; Wei Wang; Qian Zhang; Ji-Hong Liu
Journal: Plant Physiol Date: 2013-04-26 Impact factor: 8.340

Transcriptional regulation of aluminium tolerance genes.

1. Elevated CO2 (free-air CO2 enrichment) increases grain yield of aluminium-resistant but not aluminium-sensitive wheat (Triticum aestivum) grown in an acid soil.

2. Up-regulation of a magnesium transporter gene OsMGT1 is required for conferring aluminum tolerance in rice.

3. Retrotransposon Insertion and DNA Methylation Regulate Aluminum Tolerance in European Barley Accessions.

4. Alleles of organic acid transporter genes are highly correlated with wheat resistance to acidic soil in field conditions.

5. Identification of a hydrolyzable tannin, oenothein B, as an aluminum-detoxifying ligand in a highly aluminum-resistant tree, Eucalyptus camaldulensis.

6. A basic helix-loop-helix transcription factor, PtrbHLH, of Poncirus trifoliata confers cold tolerance and modulates peroxidase-mediated scavenging of hydrogen peroxide.

7. Proportion of phospholipids in the plasma membrane is an important factor in Al tolerance.

8. The rice ASR5 protein: a putative role in the response to aluminum photosynthesis disturbance.

9. Introgression of genes from bread wheat enhances the aluminium tolerance of durum wheat.

10. Transposon-mediated alteration of TaMATE1B expression in wheat confers constitutive citrate efflux from root apices.