PlantTFDB
Plant Transcription Factor Database
v4.0
Previous version: v1.0, v2.0, v3.0
Ocimum tenuiflorum
FAR1 Family
Species TF ID Description
Ote100014200001FAR1 family protein
Ote100026180021FAR1 family protein
Ote100028410021FAR1 family protein
Ote100028410101FAR1 family protein
Ote100033180101FAR1 family protein
Ote100039230081FAR1 family protein
Ote100058150021FAR1 family protein
Ote100064060071FAR1 family protein
Ote100069700071FAR1 family protein
Ote100078250061FAR1 family protein
Ote100092430081FAR1 family protein
Ote100094920121FAR1 family protein
Ote100104750181FAR1 family protein
Ote100112000051FAR1 family protein
Ote100115020081FAR1 family protein
Ote100121660071FAR1 family protein
Ote100121660111FAR1 family protein
Ote100145020061FAR1 family protein
Ote100145020071FAR1 family protein
Ote100155620021FAR1 family protein
Ote100163030001FAR1 family protein
Ote100163030011FAR1 family protein
Ote100163760031FAR1 family protein
Ote100163760071FAR1 family protein
Ote100199080061FAR1 family protein
Ote100200400171FAR1 family protein
Ote100243710041FAR1 family protein
Ote100244760081FAR1 family protein
Ote100247880051FAR1 family protein
Ote100247880121FAR1 family protein
Ote100251770021FAR1 family protein
Ote100254900001FAR1 family protein
Ote100259040031FAR1 family protein
FAR1 Family Introduction

We show that Arabidopsis FHY3 and FAR1, which encode two proteins related to Mutator-like transposases, act together to modulate phyA signaling by directly activating the transcription of FHY1 and FHL, whose products are essential for light-induced phyA nuclear accumulation and subsequent light responses. FHY3 and FAR1 have separable DNA binding and transcriptional activation domains that are highly conserved in Mutator-like transposases. Further, expression of FHY3 and FAR1 is negatively regulated by phyA signaling. We propose that FHY3 and FAR1 represent transcription factors that have been co-opted from an ancient Mutator-like transposase(s) to modulate phyA-signaling homeostasis in higher plants.

We next used a yeast one-hybrid assay to delineate the DNA sequences to which FHY3 and FAR1 bind. GAD-FHY3 or GAD-FAR1 fusion proteins (GAD, GAL4 transcriptional activation domain), but not GAD alone, activated the LacZ reporter genes driven by the FHY1 and FHL promoters. Deletion analysis narrowed down the FHY3/FAR1 binding site to a 39-bp promoter subfragment located on the "a" fragment for both FHY1 and FHL. Notably, these subfragments share a stretch of consensus sequence, 5'-TTCACGCGCC-3'. Mutating the core sequence "CACGCGC" of this motif (m2 and m3 for FHY1, m5 for FHL) abolished the reporter gene activation by both GAD-FHY3 and GAD-FAR1. Mutating the flanking sequences (m1 and m4) did not obviously affect the reporter gene activation by GAD-FAR1, but clearly reduced activation by GAD-FHY3. Thus, "CACGCGC" likely defines a cis-element that confers specific binding for FHY3 and FAR1 and is named FBS for FHY3-FAR1 binding site.

Lin R, Ding L, Casola C, Ripoll DR, Feschotte C, Wang H.
Transposase-derived transcription factors regulate light signaling in Arabidopsis.
Science, 2007. 318(5854): p. 1302-5.
PMID: 18033885