The Metallothionein‐Like Gene from Buckwheat: Structural and Functional Analysis of the Promoter Region1

The buckwheat (Fagopyrum esculentumMoench) metallothionein‐like gene was cloned and its 5′ regulatory region was examined. Computer analysis of this region using overlapping data from three different databases predicted the existence of regulatory sequences that could be involved in responses to dif...

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Bibliographic Details
Published in:International journal of plant sciences 2005-11, Vol.166 (6), p.889-900
Main Authors: Brkljacic, Jelena M, Majic, Dragana B, Miljus-Dukic, Jovanka, Bratic, Ana
Format: Article
Language:English
Subjects:
Binding sites
Buckwheat
Cloning
Complementary DNA
DNA
Flowers & plants
Gene expression
Genes
Leaves
Nuclear proteins
Oxidative stress
Promoter regions
Proteins
Transcription factors
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Summary:The buckwheat (Fagopyrum esculentumMoench) metallothionein‐like gene was cloned and its 5′ regulatory region was examined. Computer analysis of this region using overlapping data from three different databases predicted the existence of regulatory sequences that could be involved in responses to different hormonal and external stimuli (ERE, heat shock‐HSE, light and stress‐GT‐1, I‐box, GATA, G‐box, metal‐MRE) as well as the presence of putative binding sites for plant‐specific transcription factors (Dof1, NtBBF1, Athb‐1). Further investigation included analysis of the interactions of distal and proximal parts of the defined regulatory region and purified Dof1ΔC domain of maize Dof1 and the HD‐Zip‐1 domain ofArabidopsis thalianaAthb‐1 transcription factors as well as with buckwheat leaf nuclear extract. The identity of putative Dof1‐ and Athb‐1‐binding sites was confirmed in the proximal region. More important, we found that some proteins from buckwheat leaf nuclear extract compete for the Dof1‐binding sites, indicating the presence of a similar protein type in that extract. We also showed that buckwheat leaf nuclear extract itself interacted with both proximal and distal promoter regions. Interaction with the proximal region resulted in the formation of a single HMW complex, while five separate complexes with the distal region were detected, indicating interaction with predicted G‐ and I‐boxes, which are probably involved in light‐ and/or stress‐regulated MT3 gene expression. The promoter ability of the cloned buckwheat MT gene regulatory region was characterized by measuring the activity of the GUS reporter gene in the leaves of transgenic tobacco. BuckwheatMT3promoter activity was also analyzed for its response to stress produced by either hydrogen peroxide or UV treatment. We found that both treatments increased GUS activity.
ISSN:1058-5893
1537-5315
DOI:10.1086/432690