Activity of the promoter of the Lhca3.St.1 gene, encoding the potato apoprotein 2 of the light-harvesting complex of Photosystem I, in transgenic potato and tobacco plants.

We have isolated cDNA and genomic clones for the potato (Solanum tuberosum) apoprotein 2 of the light harvesting complex of Photosystem I, designated Lhca3.St.1. The protein shows all characteristics of the family of chlorophyll a/b-binding proteins. Potato Lhca3.1 gene expression occurs predominantly in leaves, and is transcriptionally regulated by light. One gene copy is present per haploid genome. The sequence of the 5' upstream region was determined. Most boxes identified in the promoter sequences of genes whose expression is light-regulated recur in the Lhca3.St.1 sequence. Functional analyses of the Lhca3.St.1 promoter and two deletion derivatives in transgenic potato transformed with a promoter-GUS fusion show high promoter activity in leaves and other green parts of the plant, which depends on light. Activity is absent in roots and potato tubers. The 500 bp promoter fragment is as active as the full 2.0 kb sequence, showing that all regulatory elements are present on the smallest deletion derivative. In transgenic tobacco (Nicotiana tabacum) plants carrying the largest promoter derivative a similar distribution of activity is found. Promoter activity is not restricted to the phloem, but also prominent in the xylem of the young stem, which contrasts with promoters of other photosynthesis-associated genes.

Isolation and analysis of genes involved in siderophore biosynthesis in plant-growth-stimulating Pseudomonas putida WCS358.

The plant-growth-stimulating Pseudomonas putida WCS358 was mutagenized with transposon Tn5. The resulting mutant colony bank was screened for mutants defective in the biosynthesis of the fluorescent siderophore. A total of 28 mutants, divided into six different classes, were isolated that were nonfluorescent or defective in iron acquisition or both. These different types of mutants together with the probable overall structure of the siderophore, i.e., a small peptide chain attached to a fluorescing group, suggest a biosynthetic pathway in which the synthesis of the fluorescing group is preceded by the synthesis of the peptide part. A gene colony bank of P. putida WCS358 was constructed with the broad-host-range cosmid vector pLAFR1. This genomic library, established in Escherichia coli, was mobilized into the 28 individual mutants, screening for transconjugants restored in fluorescence or growth under iron-limiting conditions or both. A total of 13 cosmids were found to complement 13 distinct mutants. The complementation analysis revealed that at least five gene clusters, with a minimum of seven genes, are needed for siderophore biosynthesis. Some of these genes seem to be arranged in an operon-like structure.