Agrobacterium-mediated transformation of the ectomycorrhizal basidiomycete Tricholoma matsutake that produces commercially valuable fruit bodies, matsutake

Using agroinfection with a T-DNA vector carrying a hygromycin resistance marker, the recombinants were generated for the first time from the ectomycorrhizal basidiomycete Tricholoma matsutake, which produces commercially valuable fruit bodies, matsutake, during association with Pinus sp. plants. The transformation system may be useful in the genetic analysis of T. matsutake.     

Growth promotion of mycelia of the Matsutake mushroom Tricholoma matsutake by D-isoleucine

Mycelial growth of the Matsutake mushroom (Tricholama matsutake) was much slower than that of the other mushroom species. We found that the addition of D-isoleucine to the culture medium strikingly promoted mycelia growth. The other amino acids tested had no effect on this growth promotion.     

Root endophyte symbiosis in vitro between the ectomycorrhizal basidiomycete Tricholoma matsutake and the arbuscular mycorrhizal plant Prunus speciosa

We previously reported that Tricholoma matsutake and Tricholoma fulvocastaneum, ectomycorrhizal basidiomycetes that associate with Pinaceae and Fagaceae, respectively, in the Northern Hemisphere, could interact in vitro as a root endophyte of somatic plants of Cedrela odorata (Meliaceae), which naturally harbors arbuscular mycorrhizal fungi in South America, to form a characteristic rhizospheric colony or “shiro”. We questioned whether this phenomenon could have occurred because of plant–microbe interactions between geographically separated species that never encounter one another in nature. In the present study, we document that these fungi formed root endophyte interactions and shiro within 140 days of inoculation with somatic plants of Prunus speciosa (=Cerasus speciosa, Rosaceae), a wild cherry tree that naturally harbors arbuscular mycorrhizal fungi in Japan. Compared with C. odorata, infected P. speciosa plants had less mycelial sheath surrounding the exodermis, and the older the roots, especially main roots, the more hyphae penetrated. In addition, a large number of juvenile roots were not associated with hyphae. We concluded that such root endophyte interactions were not events isolated to the interactions between exotic plants and microbes but could occur generally in vitro. Our pure culture system with a somatic plant allowed these fungi to express symbiosis-related phenotypes that varied with the plant host; these traits are innately programmed but suppressed in nature and could be useful in genetic analyses of plant–fungal symbiosis.     

Intra- and inter-specific variations in the copy number of two types of retrotransposons from the ectomycorrhizal basidiomycete Tricholoma matsutake

To explore intra- and inter-specific variations of the ectomycorrhizal basidiomycete Tricholoma matsutake that produces the fruit body matsutake, we carried out real-time PCR analysis based on two types of retrotransposons, one designated marY1, which resembles a retrovirus carrying the long terminal repeat (LTR) and the other marY2N, which resembles mRNA carrying the polyadenylated tail. Calculation based on the average genome size of homobasidiomycetes (34 Mbp) shows that ca. 5.5% of the total genome of T. matsutake isolated from Asia is made up of these retrotransposons, whereas they occupy ca. 1.4% in the isolates from Morocco, ca. 0.8% in isolates from Mexico, and ca. 0.5% in Tricholoma magnivelare, the species which produces American matsutake. Other Tricholoma spp. that produce fruit bodies similar to those of T. matsutake, such as T. bakamatsutake, T. fulvocastaneum, and T. robustum, carry them in the region less than 0.05% of their total genome. Copy number of LTR of marY1 is consistently and markedly higher than that of the coding regions of marY1 and marY2N. Data suggest that retrotransposons are deeply involved in evolution of the ectomycorrhizal symbiont.     

Characterization of the carbohydrase productions of an ectomycorrhizal fungus, Tricholoma matsutake

To evaluate the potential of the production of the ectomycorrhizal fungus Tricholoma matsutake to produce carbohydrases, (1) the distribution of carbohydrase activities among the different strains (18 strains) was investigated and (2) the abilities of T. matsutake and saprophytic fungi to produce β-glucosidase were compared. The results showed that the carbohydrase productions patterns of T. matsutake still resemble one another. Moreover, this fungus exhibited markedly higher β-glucosidase than did the saprophytic mushrooms. Tricholoma matsutake showed weak production of α-amylase and α-glucosidase in a static cultur filtrate. On the other hand, glucoamylase activity was not observed. Surprisingly, we discovered that β-glucosidase demonstrated strong activity. This finding suggests that this fungus has saprotrophic abilities. The carbohydrase production systems in T. matsutake were characterized from our experimental results. Also, we point out some weak points in the carbohydrase production systems of T. matsutake.     

Advances in the cultivation of the highly-prized ectomycorrhizal mushroom Tricholoma matsutake

Matsutake, the fruiting body of Tricholoma matsutake, is among the most economically important edible ectomycorrhizal (EM) mushrooms worldwide. This EM fungus develops “shiros”, which are mycelial aggregations that develop in association with the roots of EM coniferous trees and soil particles in well-drained and nutrient-poor forest soil. The fruiting bodies occur on the periphery of the outward-growing shiro. In spite of vast research, the cultivation of matsutake has been mostly unsuccessful. Commercial demand is therefore met by harvesting the fruiting bodies that naturally occur in forests of EM coniferous trees, mainly Pinus densiflora. Recent inoculation studies have produced mycorrhiza and shiro structures, and the host range of Tr. matsutake and associated species has been clarified. It has also become possible to identify strains of Tr. matsutake by DNA sequencing, which has also been useful to determine the origins of matsutake species in Asia and to elucidate the genetic structure of shiro. In this review, basic research and the outcomes of various trial of matsutake cultivation are discussed.     

In vitro shiro formation between the ectomycorrhizal basidiomycete Tricholoma matsutake and Cedrela herrerae in the Mahogany family (Meliaceae)

Tricholoma matsutake is an ectomycorrhizal basidiomycete that associates with Pinaceae plants, forming a rhizospheric mycelial aggregate called “shiro” from which the prized “matsutake” mushrooms form. Here we document that T. matsutake associates in vitro with Andean Cedrela herrerae (Meliaceae) via root endophyte interactions and efficiently forms shiro. C. herrerae produces many branches, leaves, and lateral roots in association with T. matsutake, unlike C. odorata, which grows in the tropics and produces few leaves and branches in association with the symbiont. This symbiosis may be a unique approach to culturing matsutake as well as to cultivating endangered plant species in vitro.     

Purification, characterization, and molecular cloning of a pyranose oxidase from the fruit body of the basidiomycete, Tricholoma matsutake

A new H(2)O(2)-generating pyranose oxidase was purified as a strong antifungal protein from an arbuscular mycorrhizal fungus, Tricholoma matsutake. The protein showed a molecular mass of 250 kDa in gel filtration, and probably consisted of four identical 62 kDa subunits. The protein contained flavin moiety and it oxidized D-glucose at position C-2. H(2)O(2) and D-glucosone produced by the pyranose oxidase reaction showed antifungal activity, suggesting these compounds were the molecular basis of the antifungal property. The V(max), K(m), and k(cat) for D-glucose were calculated to be 26.6 U/mg protein, 1.28 mM, and 111/s, respectively. The enzyme was optimally active at pH 7.5 to 8.0 and at 50 degrees C. The preferred substrate was D-glucose, but 1,5-anhydro-D-glucitol, L-sorbose, and D-xylose were also oxidized at a moderate level. The cDNA encodes a protein consisting of 564 amino acids, showing 35.1% identity to Coriolus versicolor pyranose oxidase. The recombinant protein was used for raising the antibody.     

In vitro ectomycorrhizal specificity between the Asian red pine Pinus densiflora and Tricholoma matsutake and allied species from worldwide Pinaceae and Fagaceae forests

Tricholoma matsutake produces commercially valuable, yet uncultivable, mushrooms (matsutake) in association with pines in the Far East and Scandinavia and with both pines and oaks in the foothills of Tibet. Other matsutake mushrooms, such as Tricholoma anatolicum from the Mediterranean regions and Tricholoma magnivelare and Tricholoma sp. from the North Pacific Coast area of Canada and North America as well as Mexico, respectively, are associated with pines or oaks in their natural habitats. Tricholoma bakamatsutake and Tricholoma fulvocastaneum from Asia produce moderately valuable matsutake mushrooms and are solely associated with Fagaceae in nature. In this study, we demonstrate for the first time that matsutake mushrooms from Scandinavia, Mediterranean regions, North America, and Tibet form ectomycorrhizae with Pinus densiflora similar to the Far East T. matsutake. In general, worldwide T. matsutake and the symbionts of Pinaceae colonize the rhizospheres of P. densiflora as well as T. matsutake isolated from the host plant. However, T. fulvocastaneum and T. bakamatsutake formed a discontinuous Hartig net and no Hartig net, respectively, and colonized to a lesser extent as compared to T. matsutake. The data suggest that conifer-associated matsutake mushrooms in their native habitat will associate symbiotically with the Asian red pine.     

Recombination and genetic differentiation among natural populations of the ectomycorrhizal mushroom Tricholoma matsutake from southwestern China

Effective conservation and utilization strategies for natural biological resources require a clear understanding of the natural populations of the target organisms. Tricholoma matsutake is an ectomycorrhizal mushroom that forms symbiotic associations with plants and plays an important ecological role in natural forest ecosystems in many parts of the world. It is also an economically very important gourmet mushroom. Because no artificial cultivation is available, natural populations of this species are under increasing threats, primarily from habitat disturbance and destruction. Despite its economical and ecological importance, little is known about its genetics and population biology. Here, using 14 polymerase chain reaction–restriction fragment length polymorphism markers, we analysed 154 strains from 17 geographical locations in southwestern China, a region where over 25% of the global T. matsutake harvest comes from. Our results revealed abundant genetic variation within individual populations. The analyses of gene and genotype frequencies within populations indicated that most loci did not deviate from Hardy–Weinberg equilibrium in most populations and that alleles among loci were in linkage equilibrium in the majority of the local populations. These results are consistent with the hypothesis that sexual reproduction and recombination play an important role in natural populations of this species. Our analyses indicated low but significant genetic differentiation among the geographical populations, with a significant positive correlation between genetic distance and geographical distance. We discuss the implications of our results to the ecology and resource management of this species.     

Expression of marY1, a gypsy-type LTR-retroelement from the ectomycorrhizal homobasidiomycete Tricholoma matsutake, in the budding yeast Saccharomyces cerevisiae

marY1 is a gypsy-type LTR-retroelement present in the genome of the ectomycorrhizal homobasidiomycete Tricholoma matsutake. We document here that a marY1-lacZ gene fusion was expressed in the budding yeast Saccharomyces cerevisiae. The finding strongly suggests that marY1 is activated by trans-regulatory factors common to higher fungi, and may be useful for the development of new recombinant systems in ectomycorrhizal fungi and homobasidiomycetes.     

marY2N, a LINE-like non-long terminal repeat (non-LTR) retroelement from the ectomycorrhizal homobasidiomycete Tricholoma matsutake.

A LINE-like non-LTR retroelement designated marY2N was cloned from the ectomycorrhizal homobasidiomycete Tricholoma matsutake. marY2N has open reading frames that correspond to gag and pol, and a putative promoter and consensus sequences common to those of the mutators from fruit flies. While it is common to T. matsutake and Tricholoma magnivelare, marY2N does not reside in any other species of Tricholoma tested.     

Effects of imidazole-4-carboxamide and 2-azahypoxanthine on the growth and ectomycorrhizal colonization of Pinus densiflora seedlings inoculated with Tricholoma matsutake

Imidazole-4-carboxamide (ICA) and 2-azahypoxanthine (AHX) obtained from Lepista sordida inhibit and promote the growth of herbaceous plants, respectively. In this study, we examined the effects of these compounds on the growth and ectomycorrhizal (EM) colonization of Pinus densiflora seedlings inoculated with Tricholoma matsutake that forms EM associations with pines. The EM colonization by T. matsutake was observed on the root systems of P. densiflora seedlings treated with and without ICA and AHX. The growth of both non-EM and EM P. densiflora seedlings was inhibited by ICA, regardless of the EM colonization. In contrast, AHX promoted the growth of non-EM P. densiflora seedlings, but not of EM seedlings, suggesting that EM colonization interferes with the effect of AHX on P. densiflora growth.     

松茸多糖抗辐射功能的初步研究

预防给予小鼠松茸多糖(PTM),测定小鼠在受到2 Gy X线照射后,脾和胸腺重量、T淋巴细胞转化能力、外周血中白细胞数和肝组织中SOD、CAT、GSH-Px活性及MDA含量的变化,结果显示PTM处理组小鼠的各项指标与辐射对照组比较均有显著性差别,提示PTM可促进机体自由基的清除,增加机体抗氧化能力,对辐射所致的免疫损伤有明显的保护作用。     

担子菌类食用菌交配型位点结构的研究进展

大多数可栽培的食用菌是属于担子菌的大型真菌,具有复杂的交配型系统,通常涉及到两类交配型基因,即编码同源域转录因子的A交配型基因以及编码脂肽信息素和信息素受体的B交配型基因。对担子菌交配型系统的研究已经有上百年的历史,近年来随着高通量测序技术的发展,很多常见食用菌的基因组获得测序,使得我们对不同类型交配型位点的分子遗传学结构能够进行更加细致的解析。本文在概述了担子菌有性生殖系统和交配型基因分子特点的基础上,对常见食用菌中的香菇、金针菇、灵芝、糙皮侧耳、刺芹侧耳、白灵侧耳、裂褶菌、双孢蘑菇、草菇和虎皮香菇以及模式生物灰盖鬼伞等物种的交配型位点的结构进行了总结和分析。从已有的研究结果来看,常见食用菌的交配型位点的分子遗传学结构存在多样性,不同物种的交配型位点具有不同的结构特点。从物种内不同菌株之间的交配型结构比较来看,交配型基因的位置和数量也具有丰富的多样性。在分子遗传学层面对常见食用菌交配型位点结构的认识将有助于深入阐明交配型基因对子实体发育的调控以及解决食用菌生产实际中的科学问题,但是目前对食用菌交配型位点和基因的研究仍旧存在很多空白,有待于进一步深入和拓展。     

Investigations into enzymes of nitrogen metabolism of the ectomycorrhizal basidiomycete, Suillus bovinus

Axenic mycelia of the ectomycorrhizal basidiomycete, Suillus bovinus, were grown in liquid media under continuous aeration with compressed air at 25 degrees C in darkness. Provided with glucose as the only carbohydrate source, they produced similar amounts of dry weight with ammonia, with nitrate or with alanine, 60-80% more with glutamate or glutamine, but about 35% less with urea as the respectively only exogenous nitrogen source. In crude extracts of cells from NH4(+)-cultures, NADH-dependent glutamate dehydrogenase exhibited high aminating (688 nmol x mg protein(-1) x min(-1)) and low deaminating (21 nmol x mg protein(-1) x min(-1)) activities. Its Km-values for 2-oxoglutarate and for glutamate were 1.43 mM and 23.99 mM, respectively. pH-optimum for amination was about 7.2, that for deamination about 9.3. Glutamine synthetase activity was comparatively low (59 nmol x mg protein(-1) x min(-1)). Its affinity for glutamate was poor (Km = 23.7 mM), while that for the NH4+ replacing NH2OH was high (Km = 0.19 mM). pH-optimum was found at 7.0. Glutamate synthase (= GOGAT) revealed similar low activity (62 nmol x mg protein(-1) x min(-1)), Km-values for glutamine and for 2-oxoglutarate of 2.82 mM and 0.28 mM, respectively, and pH-optimum around 8.0. Aspartate transaminase (= GOT) exhibited similar affinities for aspartate (Km = 2.55 mM) and for glutamate (Km = 3.13 mM), but clearly different Km-values for 2-oxoglutarate (1.46 mM) and for oxaloacetate (0.13 mM). Activity at optimum pH of about 8.0 was 506 nmol x mg protein(-1) x min(-1) for aspartate conversion, but only 39 nmol x mg protein(-1) x min(-1) at optimum pH of about 7.0 for glutamate conversion. Activity (599 nmol x mg protein(-1) x min(-1)), substrate affinities (Km for alanine = 6.30 mM, for 2-oxoglutarate = 0.45 mM) and pH-optimum (6.5-7.5) proved alanine transaminase (= GPT) also important in distribution of intracellular nitrogen. There was comparatively low activity of the obviously constitutive enzyme, urease, (42 nmol x mg protein(-1) x min(-1)) whose substrate affinity was rather high (Km = 0.56 mM). Nitrate reductase proved substrate induced; activity could only be measured after exposure of the mycelia to exogenous nitrate. Routes of entry of exogenous nitrogen and tentative significance of the various enzymes in cell metabolism are discussed.     

The long terminal repeat (LTR) sequence of marY1, a retroelement from the ectomycorrhizal homobasidiomycete Tricholoma matsutake, is highly conserved in various higher fungi.

marY1 is an LTR-retroelement from the homobasidiomycete Tricholoma matsutake. Nucleotide sequences that correspond to the putative U3-R region and the R-U5 region of marY1 are highly conserved in various higher fungi. Data suggest that the LTR sequence of marY1 originated early in the evolution of higher fungi and has become widely distributed. Therefore, it may be useful for the construction of an LTR-mediated transformation system in basidiomycetes.