Light-inducible promoters are able to respond to a wide spectrum of light through multiple photoreceptor systems. Several cis-acting elements have been identified as components of light-responsive promoter elements; however, none of these regulatory elements by itself appears to be sufficient to confer light responsiveness; rather, the combination of at least two elements seems to be required. Using phylogenetic structural analysis, we have identified conserved DNA modular arrays (CMAs) associated with light-responsive promoter regions that have been conserved throughout the evolutionary radiation of angiosperms. Here, we report the functional characterization of CMA5, a native 52-bp fragment of the Nicotiana plumbaginifolia rbcS 8B promoter, which contains an I-and a G-box cis-element. CMA5 behaves as a light-responsive minimal unit capable of activating a heterologous minimal promoter in a phytochrome-, cryptochrome-, and plastid-dependent manner. We also show that CMA5 light induction requires HY5 and that downstream negative regulators COP (constitutive photomorphogenic)/DET (de-etiolated) regulate its activity. Our results show that the simplest light-responsive promoter element from photosynthesis-associated genes described to date is the common target for different signals involved in light regulation. The possible mechanism involved in light-transcriptional regulation and tissue specificity of combinatorial elements units is discussed.
The AL1 protein of tomato golden mosaic virus (TGMV), a member of the geminivirus family, is essential for viral replication in plants. Its N terminus contains three conserved motifs that mediate origin recognition and DNA cleavage during the initiation of rolling-circle replication. We used the N-terminal domain of TGMV AL1 as bait in a yeast two-hybrid screen of a random peptide aptamer library constrained in the active site of the thioredoxin A (TrxA) gene. The screen selected 88 TrxA peptides that also bind to the full-length TGMV AL1 protein. Plant expression cassettes corresponding to the TrxA peptides and a TGMV A replicon encoding AL1 were cotransfected into tobacco protoplasts, and viral DNA replication was monitored by semiquantitative PCR. In these assays, 31 TrxA peptides negatively impacted TGMV DNA accumulation, reducing viral DNA levels to 13 to 64% of those of the wild type. All of the interfering aptamers also bound to the AL1 protein of cabbage leaf curl virus. A comparison of the 20-mer peptides revealed that their sequences are not random. The alignments detected seven potential binding motifs, five of which are more highly represented among the interfering peptides. One motif was present in 18 peptides, suggesting that these peptides interact with a hot spot in the AL1 N terminus. The peptide aptamers characterized in these studies represent new tools for studying AL1 function and can serve as the basis for the development of crops with broad-based resistance to single-stranded DNA viruses.Geminiviruses are a large family of single-stranded DNA viruses with twin icosahedral capsids that infect both monocotyledonous and dicotyledonous plant species. They are divided into four genera, begomoviruses, curtoviruses, topocuviruses, and mastreviruses, based on their genome organization and insect vector specificity (24). Geminivirus-produced diseases cause major economic losses in a broad range of vegetable and field crops, with multiple viruses often contributing to disease in a given crop (47,50,53). Geminviruses frequently occur as mixed infections and are often synergistic, leading to increased viral DNA accumulation and increased symptom severity (34). They can also form pseudorecombinants and undergo recombination to form new, more virulent viruses (69). An emerging class of satellite DNA molecules, which encode pathogenicity determinants, also recombine and further contribute to the genetic variability and rapid virus evolution in the field (50, 79).Geminiviruses replicate through double-stranded DNA (dsDNA) intermediates (31) via a combination of rolling-circle replication and recombination-dependent replication mechanisms (29, 64). They do not encode a DNA polymerase and instead rely on host replication machinery (30-32). Tomato golden mosaic virus (TGMV) is a begomovirus with a bipartite genome. Two of the seven proteins encoded by TGMV are involved in viral replication. AL1 (also called AC1, C1, and Rep) is essential for replication (21), while AL3 (also called AC3, C3, and REn) enhances...
Light-regulation of photosynthesis-associated nuclear genes is mediated by multipartite cis-regulatory units located in their promoter regions. The combination, spacing, and relative orientation of transcription factor binding sites in these units influences the assembly of specific multiprotein complexes that control gene expression. In this work, the functional architecture of the conserved modular array 5 (CMA5), a previously characterized minimal light-regulatory unit of rbcS gene promoters, has been analysed. With the aim of defining the sequences of CMA5 that, besides the I- and G-box elements, are essential for CMA5 responsiveness to light and chloroplast-derived signals, a series of mutations affecting the sequences flanking these elements was performed. It was found that an I-box associated module, named IbAM5, is essential for CMA5 functionality and is able to bind nuclear proteins in vitro. The spacing requirements of the I- and G-box elements in achieving adequate combinatorial interaction were also studied as well as the effect of interchanging the relative position of these elements in the native rbcS promoter arrangement. The results show that helical phasing and distance between the I- and G-box motifs are critical to determine the functionality and transcriptional strength of CMA5. Furthermore, it is shown that the relative position of the IbAM5/I-box composite element and the G-box element is not critical for the enhancer activity of CMA5, as long as the proper distance between them is maintained. Taken together, these results suggest that the light-responsive, plastid-dependent activity of CMA5 requires the synergistic interaction of several DNA-binding transcription factors assembled in a higher-order nucleoprotein complex.
Virus-induced gene silencing is based on the sequence-specific degradation of RNA. Here, a gene silencing vector derived from EuMV-YP, named pEuMV-YP:ΔAV1, was used to silence ChlI and NPR1 genes in Nicotiana benthamiana. The silencing of the ChlI transcripts was efficient in the stems, petioles and leaves as reflected in tissue bleaching and reduced transcript levels. The silencing was stable, reaching the flowers and fruits, and was observed throughout the life cycle of the plants. Additionally, the silencing of the NPR1 gene was efficient in both N. benthamiana and Capsicum annuum. After silencing, the plants' viral symptoms increased to levels similar to those seen in wild-type plants. These results suggest that NPR1 plays a role in the compatible interactions of EuMV-YP N. benthamiana and EuMV-C. annum var. anaheim.
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