Tom J. Guilfoyle scite author profile

A highly active synthetic auxin response element (AuxRE), referred to as DR5, was created by performing site-directed mutations in a natural composite AuxRE found in the soybean GH3 promoter. DR5 consisted of tandem direct repeats of 11 bp that included the auxin-responsive TGTCTC element. The DR5 AuxRE showed greater auxin responsiveness than a natural composite AuxRE and the GH3 promoter when assayed by transient expression in carrot protoplasts or in stably transformed Arabidopsis seedlings, and it provides a useful reporter gene for studying auxin-responsive transcription in wild-type plants and mutants. An auxin response transcription factor, ARF1, bound with specificity to the DR5 AuxRE in vitro and interacted with Aux/IAA proteins in a yeast two-hybrid system. Cotransfection experiments with natural and synthetic AuxRE reporter genes and effector genes encoding Aux/IAA proteins showed that overexpression of Aux/IAA proteins in carrot protoplasts resulted in specific repression of TGTCTC AuxRE reporter gene expression.

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An Auxin-Dependent Distal Organizer of Pattern and Polarity in the Arabidopsis Root

Sabatini

Beis

Wolkenfelt

et al. 1999

Cell

1,232

1,145

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Root formation in plants involves the continuous interpretation of positional cues. Physiological studies have linked root formation to auxins. An auxin response element displays a maximum in the Arabidopsis root and we investigate its developmental significance. Auxin response mutants reduce the maximum or its perception, and interfere with distal root patterning. Polar auxin transport mutants affect its localization and distal pattern. Polar auxin transport inhibitors cause dramatic relocalization of the maximum, and associated changes in pattern and polarity. Auxin application and laser ablations correlate root pattern with a maximum adjacent to the vascular bundle. Our data indicate that an auxin maximum at a vascular boundary establishes a distal organizer in the root.

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ARF1, a Transcription Factor That Binds to Auxin Response Elements

Ulmasov

Hagen

Guilfoyle

1997

Science

861

874

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The plant hormone auxin regulates plant physiology by modulating the interaction of transcription factors with auxin response elements (AuxREs) of the affected genes. A transcription factor, Auxin Response Factor 1 (ARF1), that binds to the sequence TGTCTC in AuxREs was cloned from Arabidopsis by using a yeast one-hybrid system. ARF1 has an amino-terminal DNA-binding domain related to the carboxyl terminus of the maize transactivator Viviparous-1. Sequence requirements for ARF1 binding in vitro are identical to those that confer auxin responsiveness in vivo. The carboxyl terminus of ARF1 contains two motifs found in the Aux/IAA class of proteins and appears to mediate protein-protein interactions.

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The Roles of Auxin Response Factor Domains in Auxin-Responsive Transcription

2003

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Auxin response factors

Guilfoyle

Hagen

2007

Current Opinion in Plant Biology

1,033

777

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Tom J. Guilfoyle

Aux/IAA proteins repress expression of reporter genes containing natural and highly active synthetic auxin response elements.

An Auxin-Dependent Distal Organizer of Pattern and Polarity in the Arabidopsis Root

ARF1, a Transcription Factor That Binds to Auxin Response Elements

The Roles of Auxin Response Factor Domains in Auxin-Responsive Transcription

Auxin response factors

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