Site-directed mutagenesis of the organ-specific element in the soybean leghemoglobin Ibc3 gene promoter

The expression of a soybean leghemoglobin 5' Ibc 3–GUS-3' nos chimeric gene was analyzed in Lotus corniculatus after site-specific mutagenesis of the nodulin consensus sequences, AAAGAT and CTCTT, present in the organ-specific element (OSE) (−139 to −102). Full-length promoters (−1956,+46) carrying clustered point mutations in the CTCTT sequence or in both the AAAGAT and the CTCTT sequences were inactive. Point mutations in the AAAGAT sequence had only minor effects on the expression level. Substitution of the ATTG sequence between the AAAGAT and the CTCTT sequences in the OSE reduced the activity in nodules to 10%. This, together with the conservation of the ATTGT sequence in the same position of leg-hemoglobin genes from other legumes, indicates that these sequences, in addition to the nodulin consensus sequences of the OSE, are important for high-level nodule-specific expression. Substitution of the CTCTT sequences outside the OSE (−44,−40 and −79,−75) results in promoter activities of approximately 50%.     

Regulation of plant genes specifically induced in nitrogen-fixing nodules: role of cis-acting elements and trans-acting factors in leghemoglobin gene expression

Transgenic alfalfa plants harboring a gene fusion between the soybean leghemoglobin (lbc3) promoter region and the chloramphenicol acetyl transferase (cat) gene were used to determine the influence of rhizobial mutants on lb gene expression in nodules. The promoter region of the Sesbania rostrata glb3 (Srglb3) leghemoglobin gene was examined for the presence of conserved motifs homologous to binding site 1 and 2 of the soybean lbc3 promoter region, found to interact with a trans-acting factor present in soybean nodule nuclear extracts (Jensen EO, Marcker KA, Schell J, de Bruijn FJ, EMBO J 7: 1265–1271, 1988). Subfragments of the S. rostrata glb3 (Srglb3) promoter region were examined for binding to trans-acting factors from nodule nuclear extracts. In addition to the binding sites previously identified (Metz BA, Welters P, Hoffmann HJ, Jensen EO, Schell J, de Bruijn FJ, Mol Gen Genet 214: 181–191), several other sites were found to interact with trans-acting factors. In most cases the same trans-acting factor(s) were shown to be involved. One fragment (202) was found to bind specifically to a different factor (protein) which was extremely heat-resistant (100°C). The appearance of this factor was shown to be developmentally regulated since the expected protein-DNA complexes were first observed around 12 days after infection, concomitant with the production of leghemoglobin proteins. Fragments of the Srglb3 5 upstream region were fused to the -glucuronidase reporter gene with its own CAAT and TATA box region or those of the cauliflower mosaic virus 35S and nopaline synthase (nos) promoters. These constructs were used to generate transgenic Lotus corniculatus plants and their expression was measured in different plant tissues. The Srglb3 CAAT and TATA box region was found to be required for nodule-specific expression and several upstream enhancer-type regions were identified.     

Primary structure and promoter analysis of leghemoglobin genes of the stem-nodulated tropical legume Sesbania rostrata: conserved coding sequences, cis-elements and trans-acting factors

Summary The primary structure of a leghemoglobin (lb) gene from the stem-nodulated, tropical legume Sesbania ostrata and two lb gene promoter regions was analysed. The S. rostrata lb gene structure and Lb amino acid composition were found to be highly conserved with previously described lb genes and Lb proteins. Distinct DNA elements were identified in the S. rostrata lb promoter regions, which share a high degree of homology with cis-active regulatory elements found in the soybean (Glycine max) lbc3 promoter. One conserved DNA element was found to interact specifically with an apparently universal, trans-acting factor present in nuclear extracts of nodules. These results suggest a conserved mechanism for nodule specific induction of lb genes in leguminous plants.     

Evaluation in tobacco of the organ specificity and strength of therolD promoter,domain A of the 35S promoter and the 35S2 promoter

In order to study the expression in plants of therolD promoter ofAgrobacterium rhizogenes, we have constructed chimaeric genes placing the coding region of thegusA (uidA) marker gene under control of tworolD promoter fragments of different length. Similar results were obtained with both genes. Expression studies were carried out in transformed R₁ progeny plants. In mature transformed tobacco plants, therolD-gus genes were expressed strongly in roots, and to much lower levels in stems and leaves. This pattern of expression was transmitted to progeny, though the ratio of the level of expression in roots relative to that in leaves was much lower in young seedlings. The degree of root specificity inrolD-gus transformants was less than that of a gene constructed with domain A of the CaMV 35S promoter,domA-gus, but the level of root expression was much higher than with the latter gene. However, the level of expression of therolD-gus genes was less than that of agus gene with a 35S promoter with doubled domain B, 35S²-gus. TherolD-gus genes had a distinctive pattern of expression in roots, compared to that of the two other genes, with the strongest GUS activity observed in the root elongation zone and in vascular tissue, and much less in the root apex.     

A functional map of the fruit-specific promoter of the tomato 2A11 gene

The 5 region of the fruit-specific tomato gene, 2A11, contains both positive and negative regulatory elements. We divided the 5 promoter region of the 2A11 gene into small fragments, ranging in size from 211 to 634 bp and used these short DNA fragments in in vitro protein-binding studies. These studies revealed the presence of at least four fruit-specific and one leaf- and fruit-active protein-binding domains. These promoter fragments, as well as other overlapping fragments, were tested for their ability to enhance expression from a truncated heterologous promoter in transgenic plants. This analysis showed the presence of four fruit-specific and three general or leaf-active positive regulatory elements. Comparison of the results obtained with these two approaches allowed us to draw a functional map of the 2A11 promoter.     

Functional conservation of a glucose-repressible amylase gene promoter from Drosophila virilis in Drosophila melanogaster

Summary Previous studies have demonstrated that the expression of the -amylase gene is repressed by dietary glucose in Drosophila melanogaster. Here, we show that the -amylase gene of a distantly related species, D. virilis, is also subject to glucose repression. Moreover, the cloned amylase gene of D. virilis is shown to be glucose repressible when it is transiently expressed in D. melanogaster larvae. This cross-species, functional conservation is mediated by a 330-bp promoter region of the D. virilis amylase gene. These results indicate that the promoter elements required for glucose repression are conserved between distantly related Drosophila species. A sequence comparison between the amylase genes of D. virilis and D. melanogaster shows that the promoter sequences diverge to a much greater degree than the coding sequences. The amylase promoters of the two species do, however, share small clusters of sequence similarity, suggesting that these conserved cis-acting elements are sufficient to control the glucose-regulated expression of the amylase gene in the genus Drosophila.Offprint requests to: D.A. Hickey     

Anaerobic induction and tissue-specific expression of maize Adh1 promoter in transgenic rice plants and their progeny.

Summary In order to analyze expression of the maize alcohol dehydrogenase 1 gene (Adh1), its promoter was fused with the gusA reporter gene and introduced into rice by protoplast transformation. Histochemical analysis of transgenic plants and their progeny showed that the maize Adh1 promoter is constitutively expressed in root caps, anthers, anther filaments, pollen, scutellum, endosperm and shoot and root meristem of the embryo. Induction of expression by the Adh1 promoter was examined using seedlings derived from selfed progeny of the transgenic plants. The results showed that expression of the Adh1 promoter was strongly induced (up to 81-fold) in roots of seedlings after 24 h of anaerobic treatment, concomitant with an increase in the level of gusA mRNA. 2,4-D also induced Adh1 promoter-directed expression of gusA to a similar extent. In contrast, little induction by anaerobic treatment was detected in transformed calli, leaves or roots of primary transformants or shoots of seedlings. A detailed examination of seedling roots during anaerobic treatment revealed that the induction started first at the meristem and after 3 h there was strong induction in the elongation zone which is located 1–2 mm above the meristem; the induction then progressed upward from this region. Our results suggest that transgenic rice plants carring the gusA reporter gene fused with promoters are useful for the study of anaerobic regulation of genes derived from graminaceous species.