Microsatellite markers for Hebeloma species developed from expressed sequence tags in the ectomycorrhizal fungus Hebeloma cylindrosporum

The increasing number of expressed sequence tag (EST) projects dedicated to ectomycorrhizal fungi is translating into the release of large sets of ESTs. The aim of this study was to develop and test simple sequence repeat (SSR) markers from EST databases of the model ectomycorrhizal fungus Hebeloma cylindrosporum. Six SSR markers were found to be both unambiguously scorable and polymorphic among 12 H. cylindrosporum isolates. Two SSR markers were transferable to other Hebeloma species and one marker was interestingly found to be polymorphic among seven H. crustuliniforme isolates.     

Molecular characterization of two ammonium transporters from the ectomycorrhizal fungus Hebeloma cylindrosporum

Heterologous expression of the yeast triple Mep mutant has enabled the first molecular characterization of AMT/MEP family members in an ectomycorrhizal fungus. External hyphae, which play a key role in nitrogen nutrition of trees, are considered as the absorbing structure of the ectomycorrhizal symbiosis and therefore molecular studies on ammonium transport in hyphae are urgently needed. The kinetic properties of AMT2 and AMT3 from Hebeloma cylindrosporum were studied in Saccharomyces cerevisiae. Expression of HcAmts in the yeast triple Mep mutant restored ammonium retention within cells. The HcAmts did not complement the ammonium sensing defect phenotype of Mep2Delta cells during pseudohyphal differentiation. Northern blot analysis in H. cylindrosporum showed that the HcAMTs were up-regulated upon nitrogen deprivation and down-regulated by ammonium.     

Functional expression of the green fluorescent protein in the ectomycorrhizal model fungus Hebeloma cylindrosporum

Hebeloma cylindrosporum is a model fungus for mycorrhizal studies because of its fast growth rate, simple nutritional requirements, and completion of its life cycle in vitro, and because it is amenable to transformation. To advance cell biological research during establishment of symbiosis, a tool that would enable the direct visualisation of fusion proteins in the different symbiotic tissues [namely, the expression of reporter genes such as Green Fluorescent Protein (GFP)] was still a missing tool. In the present study, H. cylindrosporum was transformed using Agrobacterium carrying the binary plasmid pBGgHg containing the Escherichia coli hygromycin B phosphotransferase (hph) and the EGFP genes, both under the control of the Agaricus bisporus glyceraldehyde-3-phosphate dehydrogenase promoter. EGFP expression was successfully detected in transformants. The fluorescence was uniformly distributed in the hyphae, while no significant background signal was detected in control hyphae. The suitability of EGFP for reporter gene studies in Hebeloma cylindrosporum was demonstrated opening up new perspectives in the Hebeloma genetics.Tobias Müller and Mariam Benjdia contributed equally to this work.     

Isolation and characterization of nitrate reductase deficient mutants of the ectomycorrhizal fungus Hebeloma cylindrosporum

To clarify the role of the fungal nitrate assimilation pathway in nitrate reduction by mycorrhizal plants, nitrate reductase (NR)-deficient (NR⁻) mutants of the ectomycorrhizal basidiomycete Hebeloma cylindrosporum Romagnesi have been selected. These mutants were produced by u.v. mutagenesis on protoplasts originating from homokaryotic mycelia belonging to complementary mating types of this heterothallic tetrapolar species. Chlorate-resistant mutants were first selected in the presence of different nitrogen (N) sources in the culture medium. Among 1495 chlorate resistant mycelia, 30 failed to grow on nitrate and lacked a detectable NR activity. Growth tests on different N sources suggested that the NR activity of all the different mutants is specifically impaired as a result of mutations in either the gene coding for NR apoprotein or genes controlling the synthesis of the molybdenum cofactor. Furthermore, restoration of NR activity in some of the dikaryons obtained after crosses between the different mutant mycelia suggested that not all the selected mutations mapped in the same gene. Utilization of N on a NH₄¹⁵NO₃ medium was studied for two mutant strains and their corresponding wild-type homokaryons. None of the mutants could use nitrate whereas ¹⁵N enrichment values indicated that 13–27% of N present in 13-d-old wild-type mycelia originated from nitrate. Apparently, the mutant mycelia do not compensate their inability to use nitrate by a more efficient use of ammonium. These different NR mutants still form mycorrhizas with the habitual host plant, Pinus pinaster (Ait.), making them suitable for study of the contribution of the fungal nitrate assimilation pathway to nitrate assimilation by mycorrhizal plants.     

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.     

Genetic study on indole-3-acetic acid production by ectomycorrhizal Hebeloma species: inter- and intraspecific variability in homo- and dikaryotic mycelia

Summary Interspecific variability of indole-3-acetic acid (IAA)-synthesizing activity was examined within 12 wild strains of different Hebeloma species. Interstrain variability was studied within 11 wild strains of Hebeloma cylindrosporum (Romagnési) and intrastrain variability was considered by using 20 homokaryotic and 50 controlled dikaryotic mycelia belonging to the progeny of one laboratory fruiting strain of this species.The range of variation of IAA-synthesizing activity was of the same order of magnitude within the four groups considered. No correlation was detected between, on one hand, the IAA-synthesizing activity of the mycelia and, on the other hand, their taxonomic position, their geographic origin, or their host plant.Within the progeny of one H. cylindrosporum fruiting strain, 15 of the 50 controlled dikaryons presented an activity higher than that of the original dikaryon. The variation among dikaryons could not be strictly related to the variation in parental homokaryons, indicating that genetic control of this activity probably involves a nonadditive component. Significant additive and nonadditive components of the genetic variation were detected, each of them representing about 50% of the total variation. The nonadditive heritable component could not be explained by a model involving only dominance.     

Ammonium-assimilating enzymes and their regulation in wild and NADP-glutamate dehydrogenase-deficient strains of the ectomycorrhizal fungus Hebeloma cylindrosporum

Hebeloma cylindrosporum strain h 17 was grown on media containing either glutamate or ammonium as nitrogen source. Growth tests and in vitro activity measurements revealed that both glutamine synthetase (GS. EC 6.3.1.2) and NADP-specific glutamate dehydrogenase (NADP-GDH, EC 1.4.1.4) are fully functional in wild type mycelia grown on glutamate or ammonium as sole nitrogen source. However, NADP-GDH appeared to be more active than GS in stationary growing mycelia. NADP-GDH is also able to sustain adequate ammonium assimilation in methionine sulfoximine (MSX)-treated mycelia since they grew as well as mycelia fed with ammonium alone. The NADP-GDH also appeared to be L-glutamate inducible whereas GS was repressed by ammonium. The NADP-GDH deficient strain, when transferred from a glutamate containing medium to an ammonium containing medium, exhibited a derepressed GS, although this enzyme did not fully substitute for the deficiency of NADP-GDH in ammonium assimilation. The low NADP-GDH activity of the mutant strain exhibited a reduced mobility on a 6% constant polyacrylamide gel. By contrast, the two enzymes had identical molecular weights, estimated to be ca 295 kDa on gradient polyacrylamide gel. The involvement of NADP-GDH and GS enzymes in nitrogen assimilation is discussed.     

Agrobacterium tumefaciens-mediated transformation as a tool for insertional mutagenesis in the symbiotic ectomycorrhizal fungus Hebeloma cylindrosporum

We transformed haploid mycelium of Hebeloma cylindrosporum via Agrobacterium tumefaciens and optimised the procedure to develop a new tool for insertional mutagenesis in this fungus. Southern blot analysis of 83 randomly selected transformants showed that they all contained plasmid inserts. Each of them showed a unique hybridisation pattern, suggesting that integration was random in the fungal genome. Sixty percent of transformants obtained in the presence of bacteria pre-treated with acetosyringone integrated a single transferred DNA copy. Thermal asymmetric interlaced polymerase chain reaction allowed us to recover the left border and the right border junctions in 85% and 15% of transformants analysed, respectively. Results show that A. tumefaciens-mediated transformation may be a powerful tool for insertional mutagenesis in H. cylindrosporum.     

Fine-scale structure of populations of the ectomycorrhizal fungus Hebeloma cylindrosporum in coastal sand dune forest ecosystems

The basidiomycete mushroom Hebeloma cylindrosporum is a frequently found pioneer ectomycorrhizal species naturally associated with Pinus pinaster trees growing in coastal sand dune ecosystems along the Atlantic south-west coast of France. The genotypic diversity and spatial structure of three populations of this fungal species have been studied. At each site the basidiocarps were mapped, sampled and propagated as pure mycelial cultures. For each of the isolates, we have studied polymorphisms in the mitochondrial genome, polymorphisms at two different nuclear loci and also fingerprints produced with a multicopy DNA probe. The comparison of the different polymorphisms obtained, with each of the four molecular methods used, allowed the identification of several of the different genets present in each site. In two of the studied sites most of the basidiocarps, which often occurred as dense patches of 10–30 in 1 m² or less, were of a unique genotype, suggesting the below-ground mycelia to be of a small size (from 50 cm² to approx. 7 m² for the larger mycelia) and that the root system of a single Pinus tree can host several genets of the same symbiotic fungus. In the two sites, which were studied again after a 3-year interval, none of the genotypes identified in the first year of sampling was re-identified 3 years later. These results contrast with those reported for other species of soilborne homobasidiomycete species, either ectomycorrhizal, parasitic or saprophytic, showing mostly large clones resulting from the vegetative growth and from persistence of below-ground mycelia. Sexual reproduction through meiospore dispersal seems to play a key role in the structuring of the populations of H. cylindrosporum. Mycelia associated with the root systems seem to be replaced after 1 or a few years, during which basidiocarp differentiation takes place. As opposed to the few other studied ectomycorrhizal species, H. cylindrosporum has the characteristics of ruderal species, with a short life-span adapted to pioneer situations, e.g. to nutrient-poor and unstable sandy soils of coastal sand dunes.     

Correspondence between genet diversity and spatial distribution of above- and below-ground populations of the ectomycorrhizal fungus Hebeloma cylindrosporum

Population studies of ectomycorrhizal fungal species have largely relied upon fruit body (the reproductive organ) sampling. Analysis of the fruit bodies alone supposes that they reflect the present and spatial organization of all below-ground genets (mycorrhizas and extramatrical mycelia). The relation between fruit bodies and ectomycorrhizas was investigated for the basidiomycete agaric Hebeloma cylindrosporum in four Pinus pinaster stands in south-west France. Genet identification was based on the comparison of polymorphisms within a hypervariable segment of the ribosomal intergenic spacer amplified by polymerase chain reaction (PCR) using a H. cylindrosporum species-specific primer. Mycorrhizas were sorted from soil samples collected underneath patches of fruit bodies or patches where fruit bodies had or had not been observed during the years prior to mycorrhiza collection. On average 65% of the 1026 mycorrhizas collected underneath fruit bodies were formed by H. cylindrosporum, whereas only 2% of the 954 collected in places from where fruit bodies were absent were formed by this species. All genotypes identified above ground were also identified below ground. In patches where one genotype formed all or more than 90% of the fruit bodies, the same genotype formed all or a large majority of the mycorrhizas. In patches occupied by several different fruiting genotypes, additional nonfruiting ones could be present on the root systems. In all cases, the mycorrhizas of one genotype were found no more than 10-20 cm away from its corresponding fruit bodies, and fruit body disappearance at a given place was associated with the disappearance of the corresponding mycorrhizas within 1 year. Although there was not a strict coincidence between the total numbers of genets present below ground and of those forming fruit bodies, fruit body analysis for H. cylindrosporum appears to reflect both the genetic diversity and the spatial structure of its below-ground populations. The results obtained also illustrate the rapid turnover of ectomycorrhizal fungal species on the root systems in the absence of any obvious major disturbance of the ecosystem.     

金针菇单、双核菌丝差异表达基因分析

对金针菇Flammulina velutipes单核菌丝W23的菌丝体以及与L11质配后的双核菌丝H1123菌丝体进行了转录组测序,以本实验室已获得的W23基因组为参考基因组研究两样本间差异基因,并对这些差异基因进行了GO功能和Pathway显著性富集分析。差异基因分析显示,两个样本中共有显著性差异表达的基因3 504个,其中在双核菌丝中上调、下调的基因数分别为2 151和1 353个。研究发现差异表达基因含有很多的转录因子基因、蛋白激酶以及WD40 repeat-like蛋白。Gene Ontology（GO）功能分析结果表明,extracellular region和membrane-enclosed lumen条目下的差异基因全部为上调表达,而envelope下的差异基因全部为下调表达,以利于双核菌丝分裂时锁状联合的形成而便于核的迁移。Pathway 功能富集分析结果表明,脂肪酸、氨基酸以及大部分糖类合成相关基因具有比较活跃的上调表达。说明双核菌丝主要进行营养物质的富集,为下一步在合适条件下分化成原基,进入生殖生长阶段储备物质基础。     

Rooting and acclimatization of micropropagated cuttings of Pinus pinaster and Pinus sylvestris are enhanced by the ectomycorrhizal fungus Hebeloma cylindrosporum

The effect of different strains of the ectomycorrhizal fungus Hebeloma cylindrosporum on rooting in vitro and acclimatization of micropropagated cuttings of Pinus pinaster and Pinus sylvestris was studied. Two clones of P. pinaster and one of P. sylvestris were unable to root in the absence of auxin, but were induced to root on a medium devoid of auxin by all the fungal strains. Wild-type and indoleacetic acid (IAA)-overproducing mutant strains of the fungus stimulated rooting of clones showing a good reactivity to auxin to the same extent. In contrast, with a clone of P. sylvestris that showed low reactivity to auxin, IAA-overproduction by the fungus was advantageous for the induction of rooting of cuttings. Adventitious roots formed in the presence of a fungal strain were completely surrounded by a loosely packed network of hyphae which formed mycorrhizas as soon as roots grew outside the agar medium. During acclimatization, fungal inoculation improved the survival of rooted cuttings. At the end of acclimatization, fungal mycelia could be easily detected in the culture substrate of cuttings inoculated with dikaryotic strains and most of the pines' short roots were mycorrhizal. Monokaryotic mycelia, which have a lower growth rate and a lower infectivity, displayed poor ability to colonize the substrate and to form mycorrhizas. Two months after the end of acclimatization, fungal inoculation frequently depressed the growth of acclimatized cuttings of the clone J of P. pinaster . No depressive effect was observed with clone 78 and growth stimulation could even be observed with the infective dikaryon D1 which formed numerous mycorrhizas. From these studies, it was concluded that ectomycorrhizal fungi could be a suitable tool for improving rooting in vitro and survival at acclimatization of micropropagated conifer cuttings.