SummaryThe P-glucuronidase (GUS) activity expressed from the soybean early nodulin ENOD2(B) gene promoter was localized histochemically in nodules of Lotus corniculatus and Trifolium repens. In both the deter- In contrast to the €NOD2(B) promoter a chimeric leghemoglobin Ibc3-GUS gene was expressed in the infected cells of both types of nodules. In the indeterminate nodules expression was restricted to the lntenone ll-Ill and the active nitrogen-fixing zone 111. Interchange of the distal strong positive element (SPE) of lbc3and the ENODZpositive element resulted in an expression pattern different from that observed for the lbc3 and ENOD2 genes, indicating that different interactions of trans-acting factors are required for regulation of early as well as late nodulin genes.
ENOD12 is one of the first nodulin genes expressed upon inoculation with Rhizobium and also purified Nod factors are able to induce ENOD12 expression. The ENOD12 gene family in pea (Pisum sativum) has two members. A cDNA clone representing PsENOD12A [26] and a PsENOD12B genomic clone [7] have been previously described. The isolation and characterization of a PsENOD12A genomic clone is presented in this paper. By using a Vicia hirsuta-Agrobacterium rhizogenes transformation system it is shown that both genes have a similar expression pattern in transgenic V. hirsuta root nodules. Promoter analyses of both PsENOD12 promoters showed that the 200 bp immediately upstream of the transcription start are sufficient to direct nodule-specific and Nod factor-induced gene expression.
The characteristics of the soybean leghemoglobin lba gene promoter were analyzed and important promoter elements from the lba and lbc3 promoters were compared using transgenic Lotus corniculatus plants. A 5' deletion analysis of the lba promoter delimited two cis-acting elements controlling expression: a distal positive element (-1254, -884) required for expression and a proximal element (-285, -60) essential for full-level activity. In contrast to the corresponding region of the lbc3 promoter, the lba proximal element is unable to control expression from the heterologous CaMV 35S enhancer. The upstream positive element of the lba gene contains a position- and orientation-independent enhancer between positions (-1091, -788). The sequence of this enhancer region is conserved in the lbc3 gene upstream (-1333, -1132) of the previously assigned strong positive element (SPE; -1090, -947). The present analysis revealed some of the properties of this extended lbc3 SPE element. The extended element (-1364, -947) functions in both orientations from 5' locations whereas the SPE2 subcomponent (-1364, -1154) containing the conserved sequence is only active in the correct orientation. Removal of the SPE2 by internal deletion demonstrates that the SPE2 subcomponent is indispensable for the activity of the lbc3 upstream positive element. These results indicate that the upstream positive elements of the lba and lbc3 genes possess different properties although their conserved minimal enhancer sequence has similar function. This may reflect the differential expression of the two lb genes of Glycine max L.
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