Expression of the nitrate transporter nrt2 gene from the symbiotic basidiomycete Hebeloma cylindrosporum is affected by host plant and carbon sources.

Although the function of the extramatrical mycelium of ectomycorrhizal fungi is considered essential for the acquisition of nitrogen by forest trees, gene regulation in this fungal compartment is poorly characterized. In this study, the expression of the nitrate transporter gene nrt2 from the ectomycorrhizal basidiomycete Hebeloma cylindrosporum was shown to be regulated by plant host and carbon sources. In the presence of a low fructose concentration, nrt2 expression could not be detected in the free-living mycelium but was high in the extramatrical symbiotic mycelium associated to the host plant Pinus pinaster. In the absence of nitrogen or in the presence of nitrate, high sugar concentrations in the medium were able to enhance nrt2 expression. Nevertheless, in the presence of high fructose concentration, high ammonium concentration still completely repressed nrt2 expression indicating that the nitrogen repression overrides sugar stimulation. This is the first report revealing an effect of host plant and of carbon sources on the expression of a fungal nitrate transporter-encoding gene.

Soil eukaryotic functional diversity, a metatranscriptomic approach.

To appreciate the functional diversity of communities of soil eukaryotic micro-organisms we evaluated an experimental approach based on the construction and screening of a cDNA library using polyadenylated mRNA extracted from a forest soil. Such a library contains genes that are expressed by each of the different organisms forming the community and represents its metatranscriptome. The diversity of the organisms that contributed to this library was evaluated by sequencing a portion of the 18S rDNA gene amplified from either soil DNA or reverse-transcribed RNA. More than 70% of the sequences were from fungi and unicellular eukaryotes (protists) while the other most represented group was the metazoa. Calculation of richness estimators suggested that more than 180 species could be present in the soil samples studied. Sequencing of 119 cDNA identified genes with no homologues in databases (32%) and genes coding proteins involved in different biochemical and cellular processes. Surprisingly, the taxonomic distribution of the cDNA and of the 18S rDNA genes did not coincide, with a marked under-representation of the protists among the cDNA. Specific genes from such an environmental cDNA library could be isolated by expression in a heterologous microbial host, Saccharomyces cerevisiae. This is illustrated by the functional complementation of a histidine auxotrophic yeast mutant by two cDNA originating possibly from an ascomycete and a basidiomycete fungal species. Study of the metatranscriptome has the potential to uncover adaptations of whole microbial communities to local environmental conditions. It also gives access to an abundant source of genes of biotechnological interest.

How does a symbiotic fungus modulate expression of its host-plant nitrite reductase?

* In the mycorrhizal association, changes in the metabolic activities expressed by the plant and fungal partners could result from modulations in the quantity and nature of nutrients available at the plant-fungus interface. This hypothesis was tested for the nitrite reductase gene in the association Hebeloma cylindrosporumxPinus pinaster. * Transcripts from plant and fungal nitrite reductases and a fungal ammonium transporter were quantified in control uninoculated roots, extraradical mycelia and mycorrhizas formed by either wild-type or nitrate reductase deficient fungal strains. * The fungal genes were downregulated in mycorrhizas compared with extraradical hyphae. The plant nitrite reductase was induced only transiently by NO(3)(-) in the association with a wild-type strain, but permanently expressed at a high level in mycorrhizas formed by the deficient mutant. * These results suggest that reduced nitrogen compounds transferred from the fungus to the root cortical cells repress the plant nitrite reductase, thus highlighting a plant gene regulation by the nutrients available in the Hartig net.

Green fluorescent protein expression in the symbiotic basidiomycete fungus Hebeloma cylindrosporum.

The symbiotic basidiomycete Hebeloma cylindrosporum is a model fungal species used to study ectomycorrhizal symbiosis at the molecular level. In order to have a vital marker, we developed a green fluorescent protein (GFP) reporter system efficiently expressed in H. cylindrosporum using the sgfp coding region bordered by two introns fused to the saprophytic basidiomycete Coprinopsis cinerea cgl1 promoter. Expression of this reporter system was tested under different environmental conditions in two transformants, and glucose was shown to repress gfp expression. Such a reporter system will be used in plant-fungus interaction to evaluate sugar supply by the plant to the compatible mycorrhizal symbiont and to compare the expression of various genes of interest in the free-living mycelia, in the symbiotic (mycorrhizas) and the reproductive (fruit bodies) structures formed by H. cylindrosporum.

Intraspecific variation in use of different organic nitrogen sources by the ectomycorrhizal fungus Hebeloma cylindrosporum.

The ectomycorrhizal (ECM) fungus Hebeloma cylindrosporum is an appropriate model to study the intraspecific functional diversity of ECM fungi in forest ecosystems. Numerous metabolic genes, specifically genes related to nitrogen assimilation, have been characterised for this species and the spatial and temporal structures of its natural populations have been extensively worked out. In this paper, we reveal the extent to which intraspecific variation exists within this fungus for the ability to use organic nitrogen, an important functional characteristic of ECM fungi. In addition to ammonium and nitrate, H. cylindrosporum can use at least 13 different amino acids out of 21 tested as sole nitrogen source, as well as urea and proteins. By screening 22 genetically different wild type haploid strains we identified obvious differences in use of six nitrogen sources: alanine, glycine, phenylalanine, serine, bovine serum albumin and gelatine. Of the 22 haploid strains, 11 could not use at least one of these six nitrogen sources. The inability of some haploid strains to use a nitrogen source was found to be a recessive character. Nevertheless, obvious differences in use of the four amino acids tested were also measured between wild type dikaryons colonising a common Pinus pinaster root system. This study constitutes the basis for future experiments that will address the consequences of the functional diversity of an ECM fungus on the functioning of the ECM symbiosis under natural conditions.

Characterisation and expression analysis of a nitrate transporter and nitrite reductase genes, two members of a gene cluster for nitrate assimilation from the symbiotic basidiomycete Hebeloma cylindrosporum.

Symbiotic ectomycorrhizal fungi contribute to the nitrogen nutrition of their host-plants but little information is available on the molecular control of their nitrogen metabolism. We cloned and characterised genes encoding a nitrite reductase and a nitrate transporter in the ectomycorrhizal basidiomycete Hebeloma cylindrosporum. These two genes are divergently transcribed and linked to a previously cloned nitrate reductase gene, thus demonstrating that nitrate assimilation gene clusters occur in homobasidiomycetes. The nitrate transporter polypeptide (NRT2) is characterised by 12 transmembrane domains and presents both a long putative intracellular loop and a short C-terminal tail, two structural features which distinguish fungal high-affinity transporters from their plant homologues. In different wild-type genetic backgrounds, transcription of the two genes was repressed by ammonium and was strongly stimulated not only in the presence of nitrate but also in the presence of organic nitrogen sources or under nitrogen deficiency.