TAA1-Regulated Local Auxin Biosynthesis in the Root-Apex Transition Zone Mediates the Aluminum-Induced Inhibition of Root Growth in Arabidopsis

The transition zone (TZ) of the root apex is the perception site of Al toxicity. Here, we show that exposure of Arabidopsis thaliana roots to Al induces a localized enhancement of auxin signaling in the root-apex TZ that is dependent on TAA1, which encodes a Tip aminotransferase and regulates auxin...

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Bibliographic Details
Published in:The Plant cell 2014-07, Vol.26 (7), p.2889-2904
Main Authors: Yang, Zhong-Bao, Geng, Xiaoyu, He, Chunmei, Zhang, Feng, Wang, Rong, Horst, Walter J., Ding, Zhaojun
Format: Article
Language:English
Subjects:
Aluminum
Aluminum - toxicity
Amino Acids, Cyclic - metabolism
Arabidopsis - cytology
Arabidopsis - drug effects
Arabidopsis - genetics
Arabidopsis - growth & development
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
Auxins
Biological Transport
Biosynthesis
Cell Wall - metabolism
Cell walls
Ethylenes - metabolism
Gene Expression Regulation, Plant
Genes
Genes, Reporter
Indoleacetic Acids - metabolism
Plant cells
Plant Growth Regulators - metabolism
Plant roots
Plant Roots - cytology
Plant Roots - genetics
Plant Roots - growth & development
Plant Roots - physiology
Plants
Root growth
Seedlings
Signal Transduction
Transcription Factors - genetics
Transcription Factors - metabolism
Tryptophan Transaminase - genetics
Tryptophan Transaminase - metabolism
Up-Regulation
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Summary:The transition zone (TZ) of the root apex is the perception site of Al toxicity. Here, we show that exposure of Arabidopsis thaliana roots to Al induces a localized enhancement of auxin signaling in the root-apex TZ that is dependent on TAA1, which encodes a Tip aminotransferase and regulates auxin biosynthesis. TAA1 is specifically upregulated in the root-apex TZ in response to Al treatment, thus mediating local auxin biosynthesis and inhibition of root growth. The TAA1-regulated local auxin biosynthesis in the root-apex TZ in response to Al stress is dependent on ethylene, as revealed by manipulating ethylene homeostasis via the precursor of ethylene biosynthesis 1-aminocyclopropane-i-carboxylic acid, the inhibitor of ethylene biosynthesis aminoethoxyvinylglycine, or mutant analysis. In response to Al stress, ethylene signaling locally upregulates TAA1 expression and thus auxin responses in the TZ and results in auxin-regulated root growth inhibition through a number of auxin response factors (ARFs). In particular, ARF10 and ARF16 are important in the regulation of cell wall modification-related genes. Our study suggests a mechanism underlying how environmental cues affect root growth plasticity through influencing local auxin biosynthesis and signaling.
ISSN:1040-4651
1532-298X
DOI:10.1105/tpc.114.127993