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電子書籍・電子雑誌Plant biotechnology
Volume number32 (2)
The axhs1/...

The axhs1/dwf4 auxin-hypersensitive mutant of Arabidopsis thaliana defines a link for integration of auxin and brassinosteroid mediated root elongation

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The axhs1/dwf4 auxin-hypersensitive mutant of Arabidopsis thaliana defines a link for integration of auxin and brassinosteroid mediated root elongation

Call No. (NDL)
Z54-J126
Bibliographic ID of National Diet Library
026560164
Persistent ID (NDL)
info:ndljp/pid/11000429
Material type
記事
Author
Taisuke Nagaseほか
Publisher
日本植物細胞分子生物学会
Publication date
2015
Material Format
Digital
Journal name
Plant biotechnology 32(2)
Publication Page
-
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Summary, etc.:

To understand the molecular mechanism of auxin-mediated root elongation, we carried out screening to isolate auxin-hypersensitive (<i>axhs</i>) mutant...

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Digital

Material Type
記事
Author/Editor
Taisuke Nagase
Hisabumi Takase
Jiro Sekiya
Publication, Distribution, etc.
Publication Date
2015
Publication Date (W3CDTF)
2015
Periodical title
Plant biotechnology
No. or year of volume/issue
32(2)
Volume
32(2)
ISSN (Periodical Title)
1347-6114
ISSN-L (Periodical Title)
1342-4580
Text Language Code
eng
Persistent ID (NDL)
info:ndljp/pid/11000429
Collection (Materials For Handicapped People:1)
Collection (particular)
国立国会図書館デジタルコレクション > 電子書籍・電子雑誌 > 学術機関 > 学協会
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インターネット資料収集保存事業(WARP)
Date Accepted (W3CDTF)
2017-12-08T10:56:38+09:00
Date Captured (W3CDTF)
2015-08-15
Format (IMT)
application/pdf
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インターネット公開
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不可
Periodical Title (Persistent ID (NDL))
info:ndljp/pid/11000424
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国立国会図書館 : 国立国会図書館デジタルコレクション

Digital

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国立国会図書館デジタルコレクション > 電子書籍・電子雑誌 > 学術機関 > 学協会
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インターネット公開
Availability of remote photoduplication service
不可
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国立国会図書館
Call No.
Z54-J126
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info:ndljp/pid/11000429
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国立国会図書館 : 国立国会図書館雑誌記事索引
Bibliographic ID (NDL)
026560164
Bibliographic Record Category (NDL)
632

Digital

Summary, etc.
To understand the molecular mechanism of auxin-mediated root elongation, we carried out screening to isolate auxin-hypersensitive (<i>axhs</i>) mutants. The T-DNA insertional mutant <i>axhs1</i> was selected on the basis of root phenotypes associated with auxin sensitivity. Results from brassinosteroid (BR) feeding experiments, Tail-PCR and genetic analyses indicate that <i>AXHS1</i> encodes DWF4, which catalyzes the rate limiting step of BR biosynthesis. The <i>axhs1</i> mutant shows increased sensitivity to indole-3-acetic acid (IAA), the synthetic auxin 2,4-dichlorophenoxyacetic acid (2,4-D), auxin transport inhibitors such as 2,3,5-triiodobenzoic acid (TIBA) and N-1-naphthylphthalamic acid (NPA), and the antiauxin p-chlorophenoxyisobutyric acid (PCIB) for the root elongation response. Analysis of the expression of the <i>DR5:GUS</i> and <i>HS:AXR3NT-GUS</i> reporter genes in wild type and <i>axhs1</i> genotypes, and characterization of double mutants between <i>axhs1</i> and mutants affected in auxin biosynthesis (<i>wei2-1</i>), auxin transport (<i>aux1-7</i>, <i>eir1-1</i>) and auxin signal transduction (<i>tir1-1</i>, <i>axr1-3</i>, <i>axr2-1</i>) indicate that auxin hypersensitivity in <i>axhs1</i> is mediated by the auxin-signaling pathway and an AUX1, EIR1/PIN2 dependent auxin uptake.
DOI
10.5511/plantbiotechnology.15.0209a
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インターネット公開
Data Provider (Database)
科学技術振興機構 : J-STAGE

Digital

Summary, etc.
To understand the molecular mechanism of auxin-mediated root elongation, we carried out screening to isolate auxin-hypersensitive (<i>axhs</i>) mutants. The T-DNA insertional mutant <i>axhs1</i> was selected on the basis of root phenotypes associated with auxin sensitivity. Results from brassinosteroid (BR) feeding experiments, Tail-PCR and genetic analyses indicate that <i>AXHS1</i> encodes DWF4, which catalyzes the rate limiting step of BR biosynthesis. The <i>axhs1</i> mutant shows increased sensitivity to indole-3-acetic acid (IAA), the synthetic auxin 2,4-dichlorophenoxyacetic acid (2,4-D), auxin transport inhibitors such as 2,3,5-triiodobenzoic acid (TIBA) and N-1-naphthylphthalamic acid (NPA), and the antiauxin p-chlorophenoxyisobutyric acid (PCIB) for the root elongation response. Analysis of the expression of the <i>DR5:GUS</i> and <i>HS:AXR3NT-GUS</i> reporter genes in wild type and <i>axhs1</i> genotypes, and characterization of double mutants between <i>axhs1</i> and mutants affected in auxin biosynthesis (<i>wei2-1</i>), auxin transport (<i>aux1-7</i>, <i>eir1-1</i>) and auxin signal transduction (<i>tir1-1</i>, <i>axr1-3</i>, <i>axr2-1</i>) indicate that auxin hypersensitivity in <i>axhs1</i> is mediated by the auxin-signaling pathway and an AUX1, EIR1/PIN2 dependent auxin uptake.
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インターネット公開
References
Sulfonylurea-resistant mutants of Arabidopsis thaliana
The Arabidopsis deetiolated2 Mutant Is Blocked Early in Brassinosteroid Biosynthesis
EIR1, a root-specific protein involved in auxin transport, is required for gravitropism in<i>Arabidopsis thaliana</i>
Aux/IAA proteins repress expression of reporter genes containing natural and highly active synthetic auxin response elements.
Brassinolide Induces <i>IAA5, IAA19</i> , and DR5, a Synthetic Auxin Response Element in Arabidopsis, Implying a Cross Talk Point of Brassinosteroid and Auxin Signaling
Genome-Wide Insertional Mutagenesis of <i>Arabidopsis thaliana</i>
Efficient isolation and mapping of <i>Arabidopsis thaliana</i> T‐DNA insert junctions by thermal asymmetric interlaced PCR
Interdependency of Brassinosteroid and Auxin Signaling in Arabidopsis
Brassinosteroids Interact with Auxin to Promote Lateral Root Development in Arabidopsis
The main auxin biosynthesis pathway in <i>Arabidopsis</i>
<i>p</i>-Chlorophenoxyisobutyric Acid Impairs Auxin Response in Arabidopsis Root
Auxin, actin and growth of the <i>Arabidopsis thaliana</i> primary root
AXR1 is involved in BR‐mediated elongation and <i>SAUR‐AC1</i> gene expression in Arabidopsis
Arabidopsis auxin-resistance gene AXR1 encodes a protein related to ubiquitin-activating enzyme E1
Chromosaponin I Specifically Interacts with AUX1 Protein in Regulating the Gravitropic Response of Arabidopsis Roots
Auxin stimulates <i>DWARF4</i> expression and brassinosteroid biosynthesis in Arabidopsis
Auxin: Regulation, Action, and Interaction
Mutations in<i>Arabidopsis Multidrug Resistance-Like</i>ABC Transporters Separate the Roles of Acropetal and Basipetal Auxin Transport in Lateral Root Development
Gravitropism of<i>Arabidopsis thaliana</i>Roots Requires the Polarization of PIN2 toward the Root Tip in Meristematic Cortical Cells
<i>AXR2</i> Encodes a Member of the Aux/IAA Protein Family
Transcription of DWARF4 Plays a Crucial Role in Auxin-Regulated Root Elongation in Addition to Brassinosteroid Homeostasis in Arabidopsis thaliana
A Link between Ethylene and Auxin Uncovered by the Characterization of Two Root-Specific Ethylene-Insensitive Mutants in Arabidopsis
An Arabidopsis Brassinosteroid-Dependent Mutant Is Blocked in Cell Elongation
Inhibition of Brassinosteroid Biosynthesis by Either a <i>dwarf4</i> Mutation or a Brassinosteroid Biosynthesis Inhibitor Rescues Defects in Tropic Responses of Hypocotyls in the Arabidopsis Mutant <i>nonphototropic hypocotyl 4</i>
The Evolving Complexity of the Auxin Pathway
AUX1 regulates root gravitropism in Arabidopsis by facilitating auxin uptake within root apical tissues
The TIR1 protein of <i>Arabidopsis</i> functions in auxin response and is related to human SKP2 and yeast Grr1p
AtPIN2 defines a locus of Arabidopsis for root gravitropism control
BRI1/BAK1, a Receptor Kinase Pair Mediating Brassinosteroid Signaling
Comparison of mechanisms controlling uptake and accumulation of 2,4-dichlorophenoxy acetic acid, naphthalene-1-acetic acid, and indole-3-acetic acid in suspension-cultured tobacco cells
Auxin regulates SCFTIR1-dependent degradation of AUX/IAA proteins
Structure-Function Analysis of the Presumptive Arabidopsis Auxin Permease AUX1[W]
Comprehensive Comparison of Auxin-Regulated and Brassinosteroid-Regulated Genes in Arabidopsis
Yokonolide B, a Novel Inhibitor of Auxin Action, Blocks Degradation of AUX/IAA Factors
Localization of the auxin permease AUX1 suggests two functionally distinct hormone transport pathways operate in the <i>Arabidopsis</i> root apex
Brassinosteroids Stimulate Plant Tropisms through Modulation of Polar Auxin Transport in <i>Brassica</i> and <i>Arabidopsis</i>
A Putative Leucine-Rich Repeat Receptor Kinase Involved in Brassinosteroid Signal Transduction
AUX1 Promotes Lateral Root Formation by Facilitating Indole-3-Acetic Acid Distribution between Sink and Source Tissues in the Arabidopsis Seedling
Reduced naphthylphthalamic acid binding in the tir3 mutant of Arabidopsis is associated with a reduction in polar auxin transport and diverse morphological defects.
Arabidopsis <i>Aux/IAA</i> genes are involved in brassinosteroid‐mediated growth responses in a manner dependent on organ type
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Bibliographic ID (NDL)
026560164
NAID
130005085997