21 research outputs found

    The sugar beet gene encoding the sodium/proton exchanger 1 (BvNHX1) is regulated by a MYB transcription factor

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    Sodium/proton exchangers (NHX) are key players in the plant response to salinity and have a central role in establishing ion homeostasis. NHXs can be localized in the tonoplast or plasma membranes, where they exchange sodium ions for protons, resulting in sodium ions being removed from the cytosol into the vacuole or extracellular space. The expression of most plant NHX genes is modulated by exposure of the organisms to salt stress or water stress. We explored the regulation of the vacuolar NHX1 gene from the salt-tolerant sugar beet plant (BvNHX1) using Arabidopsis plants transformed with an array of constructs of BvHNX1::GUS, and the expression patterns were characterized using histological and quantitative assays. The 5′ UTR of BvNHX1, including its intron, does not modulate the activity of the promoter. Serial deletions show that a 337 bp promoter fragment sufficed for driving activity that indistinguishable from that of the full-length (2,464 bp) promoter. Mutating four putative cis-acting elements within the 337 bp promoter fragment revealed that MYB transcription factor(s) are involved in the activation of the expression of BvNHX1 upon exposure to salt and water stresses. Gel mobility shift assay confirmed that the WT but not the mutated MYB binding site is bound by nuclear protein extracted from salt-stressed Betavulgaris leaves

    Upstream regulatory architecture of rice genes: summarizing the baseline towards genus-wide comparative analysis of regulatory networks and allele mining

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    A novel DNA binding protein with homology to Myb oncoproteins containing only one repeat can function as a transcriptional activator.

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    A cDNA clone encoding a novel Myb-related protein, designated MybSt1, was isolated from a potato cDNA expression library by South Western screening using the CaMV 35S promoter domain A as a probe. Sequence comparison shows a small region with some homology to the highly conserved DNA binding domain of the c-myb proto-oncogene consisting of three imperfect repeats. The Myb motif of the MybSt1 protein is distinct from the plant Myb DNA binding domain described so far. In contrast to the known plant Myb proteins, with two repeats required for the DNA binding activity, the clone mybSt1 contains only one such repeat. Nevertheless, the Myb-related protein MybSt1 is able to bind to DNA in a sequence-specific manner. In addition to the Myb-like region, the protein MybSt1 contains an acidic segment in its central region as well as a proline-rich region near the C-terminus. Applying the random binding site selection technique, high-affinity DNA binding sites for MybSt1 were identified, sharing the core motif GGATA. In transient expression assays using plant protoplasts, clear evidence was obtained for this myb clone functioning as a transcriptional activator

    Towards functional characterisation of the members of the R2R3-MYB gene family from Arabidopsis thaliana

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    Kranz HD, Denekamp M, Greco R, et al. Towards functional characterisation of the members of the R2R3-MYB gene family from Arabidopsis thaliana. The Plant Journal. 1998;16(2):263-276.Transcription factors containing a conserved DNA-binding domain similar to that of the proto-oncogene c-myb have been identified in nearly all eukaryotes. MYB-related proteins from plants generally contain two related helix-turn-helix motifs, the R2 and R3 repeats. It was estimated that Arabidopsis thaliana contains more than 100 R2R3-MYB genes. The few cases where functional data are available suggest an important role of these genes in the regulation of secondary metabolism, the control of cell shape, disease resistance, and hormone responses. To determine the full regulatory potential of this large family of regulatory genes, a systematic search for the function of all genes of this family was initiated. Sequence data for more than 90 different A. thaliana R2R3-MYB genes have been obtained. Sequence comparison revealed conserved amino acid motifs shared by subgroups of R2R3-MYB genes in addition to the characteristic DNA-binding domain. No significant clustering of the genes was detected, although they are not uniformly distributed throughout the A. thaliana genome

    Efficient silencing of reporter transgenes coupled to known functional promoters in sugarcane, a highly polyploid crop species

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    Sugarcane is a crop of great interest for engineering of sustainable biomaterials and biofuel production. Isolated sugarcane promoters have generally not maintained the expected patterns of reporter transgene expression. This could arise from defective promoters on redundant alleles in the highly polyploid genome, or from efficient transgene silencing. To resolve this question we undertook detailed analysis of a sugarcane gene that combines a simple pattern in genomic Southern hybridization analysis with potentially useful, sink-specific, expression. Sequence analysis indicates that this gene encodes a member of the SHAQYF subfamily of MYB transcription factors. At least eight alleles were revealed by PCR analysis in sugarcane cultivar Q117 and a similar level of heterozygosity was seen in BAC clones from cultivar Q200. Eight distinct promoter sequences were isolated from Q117, of which at least three are associated with expressed alleles. All of the isolated promoter variants were tested for ability to drive reporter gene expression in sugarcane. Most were functional soon after transfer, but none drove reporter activity in mature stems of regenerated plants. These results show that the ineffectiveness of previously tested sugarcane promoters is not simply due to the isolation of non-functional promoter copies from the polyploid genome. If the unpredictable onset of silencing observed in most other plant species is associated with developmental polyploidy, approaches that avoid efficient transgene silencing in polyploid sugarcane are likely to have much wider utility in molecular improvement
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