Abstract
In higher plants, activation sequence-1 (as-1) of the cauliflower mosaic virus 35S promoter mediates both salicylic acid- and auxin-inducible transcriptional activation. Originally found in viral and T-DNA promoters, as-1-like elements are also functional elements of plant promoters activated in the course of a defence response upon pathogen attack. as-1-like elements are characterised by two imperfect palindromes with the palindromic centres being spaced by 12 bp. They are recognised by plant nuclear as-1-binding factor ASF-1, the major component of which is basic/leucine zipper (bZIP) protein TGA2.2 (approximately 80%) in Nicotiana tabacum. In electrophoretic mobility shift assays, ASF-1 as well as bZIP proteins TGA2.2, TGA2.1 and TGA1a showed a 3-10-fold reduced binding affinity to mutant as-1 elements encoding insertions of 2, 4, 6, 8 or 10 bp between the palindromes, respectively. This correlated with a 5-10-fold reduction in transcriptional activation from these elements in transient expression assays. Although ASF-1 and TGA factors bound efficiently to a mutant element carrying a 2 bp deletion between the palindromes [as-1/(-2)], the latter was strongly compromised with respect to mediating gene expression in vivo. A fusion protein consisting of TGA2.2 and a constitutive activation domain mediated transactivation from as-1/(-2) demonstrating binding of TGA factors in vivo. We therefore conclude that both DNA binding and transactivation require optimal positioning of TGA factors on the as-1 element.
Highlights
Many eukaryotic transcription factors recognise short sequence motifs with a surprisingly high tolerance for sequence deviations
The sequence between the palindromes of the as-1 element can be altered without affecting factor binding and transcriptional activation
Before constructing as-1 elements with different spacings between the two palindromes, we addressed the impact of sequence alterations per se on in vitro DNA binding and in vivo transcriptional activity
Summary
Many eukaryotic transcription factors recognise short sequence motifs with a surprisingly high tolerance for sequence deviations. SA treatment than the aforementioned promoters: whereas the ‘immediate early’ genes are only transiently induced after 1–2 h after SA application without requiring protein biosynthesis, the ‘late’ genes show a long lasting induction after 10–12 h and activation requires protein biosynthesis [3] This indicates that the trans-factors binding to as-1-like elements can be targets for different SA-dependent signal transduction networks. We asked whether DNA binding and/or other steps leading to transcriptional activation require exact spacing of the palindromes To address this question, we constructed a series of as-1 mutants differing in the spacing between the two palindromes, tested them in EMSAs for their relative affinities to ASF-1, TGA2.2, TGA2.1 and TGA1a, and determined their in vivo activity in transient expression assays using tobacco protoplasts
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