A G-box motif (GCCACGTGCC) tetramer confers high-level constitutive expression in dicot and monocot plants

GUS reporter expression from 11 basal promoters (CaMV –90) with G-box cores (CACGTG) was analysed to evaluate the regulatory roles of G-box flanking sequences. While most G-box motifs exhibited some tissue preference of gene expression, a distinct tissue-specific expression was not apparent. However, one of 11 G-box sequences, the G-box 10 (GCCACGTGCC) tetramer, conferred a high-level constitutive expression in seed, root, leaf, axillary bud, almost all parts of flower buds and pollen of transgenic tobacco plants. Furthermore, the G-box 10 tetramer promoter exhibited high-level expression in transgenic dicot carrot and monocot rice. This is apparently the first report of a G-box motif conferring a high-level constitutive expression in a non-tissue-specific manner.     

The promoter of the strictosidine synthase gene from periwinkle confers elicitor-inducible expression in transgenic tobacco and binds nuclear factors GT-1 and GBF

Strictosidine synthase (STR) is a key enzyme in the biosynthesis of terpenoid indole alkaloids. This class of secondary metabolites harbours several pharmaceutically important compounds used, among other applications, in cancer treatment. Terpenoid indole alkaloid biosynthesis and expression of biosynthetic genes including Str1 is induced by fungal elicitors. To identify elicitor-responsive regulatory promoter elements and trans-acting factors, the single-copy Str1 gene was isolated from the subtropical plant species Catharanthus roseus (Madagascar periwinkle). Str1 upstream sequences conferred elicitor-responsive expression to the -glucuronidase (gusA) reporter gene in transgenic tobacco plants. Main enhancer sequences within the Str1 promoter region studied were shown to be located between –339 and –145. This region and two other regions of the promoter bound the tobacco nuclear protein factor GT-1. A G-box located around position –105 bound nuclear and cloned G-box-binding factors (GBFs). A mutation that knocked out GBF binding had no measurable effect on expression, which indicates that the G-box is not essential for the elicitor responsiveness of the Str1 promoter. No obvious homologies with promoter elements identified in other elicitor-responsive genes were observed, suggesting that the Str1 gene may depend on novel regulatory mechanisms.     

Analysis of the essential DNA region for OsEBP-89 promoter in response to methyl jasmonic acid

In rice, the characterization of OsEBP-89 is inducible by various stress- or hormone-stimuli, including ethylene, abscisic acid (ABA), jasmonate acid (JA), drought and cold. Here, we report the investigation of essential DNA region within OsEBP-89 promoter for methyl jasmonic acid (MeJA) induction. PLACE analysis indicates that this promoter sequence contains multiple potential elements in response to various stimuli. First, we fused this promoter with GUS gene and analyzed its expression under MeJA treatment through Agrobacterium infiltration mediating transient expression in tobacco leaves. Our results revealed that this chimeric gene could be inducible by MeJA in tobacco leaves. To further de- termine the crucial sequences responsible for MeJA induction, we generated a series of deletion pro- moters which were fused with GUS reporter gene respectively. The results of transient expression of GUS gene driven by these mutant promoters show that the essential region for MeJA induction is po- sitioned in the region between -1200 and -800 in OsEBP-89 promoter containing a G-box (?1127), which is distinct from the essential region containing ERE (?562) for ACC induction. In all, our finding is helpful in understanding the molecular mechanism of OsEBP-89 expression under different stimuli.     

ASF-2: a factor that binds to the cauliflower mosaic virus 35S promoter and a conserved GATA motif in Cab promoters.

We have used nuclear extracts prepared from tobacco leaf tissue to characterize a factor binding site, designated as-2 (activating sequence-2), at the -100 region of the cauliflower mosaic virus 35S promoter. The activity of this factor, called ASF-2 (activating sequence factor-2), is not detected in tobacco root extracts. as-2 includes two GT motifs with sequence homology to the SV40 enhancer core A element and the Box II element of pea rbcS. Nevertheless, oligomers of these sequence elements do not compete for ASF-2 binding in gel retardation assays, indicating that the GT motifs may not be involved. Methylation interference studies identify two guanines (G93 and G98) that are required for interaction with ASF-2. Sequences surrounding these two critical guanines display homologies to a GATA repeat conserved among several light-responsive promoters. One such sequence from a petunia Cab promoter is able to compete with as-2 for factor binding. In transgenic plants, a tetramer of as-2 is able to confer leaf expression when fused 5' to the -90 derivative of the 35S promoter. The expression is not dependent on light and, thus, the as-2 tetramer does not function as a light-responsive element in this context. Histochemical localization of the reporter gene product suggests that the as-2 tetramer directs expression in trichomes, vascular elements, and epidermal and mesophyll cells.     

Structural characteristics of two wheat histone H2A genes encoding distinct types of variants and functional differences in their promoter activity

To investigate the regulation of plant histone H2A gene expression, we isolated two H2A genes (TH254 and TH274) from wheat, which encode two variants of H2A. Both genes had an intron in the coding region. In the promoters, some characteristic sequences, such as Oct and Nona motifs, which are conserved among plant histone genes, were located in a short region (about 120 bp) upstream from the putative TATA box. Transient expression analyses of promoter activity with H2A–GUS fusion genes using tobacco protoplasts revealed novel types of positive cis/-acting sequences in the TH254 promoter: a direct repeat of a 13 bp sequence (AGTTACATTATTG) and a stretch composed of an AT-rich sequence (ATATAGAAAATTAAAA) and a G-box (CACGTG). Quantitative S1 assay of the mRNA amounts from the TH254/GUS and TH274/GUS chimeric genes in stably transformed and cell cycle-synchronized tobacco cell lines showed that the promoters of both genes contained at least one cis/-acting element responsible for S phase-specific expression. Histochemical analysis of transgenic tobacco plants carrying the chimeric genes showed that the promoters of the two H2A genes were active in developing seedlings and flower organs but were regulated in a different manner.