Genetic diversity of the ectomycorrhizal fungus Pisolithus tinctorius based on RAPD-PCR analysis

 Twenty Pisolithus tinctorius isolates from different geographic locations and different hosts were characterized by the random amplified polymorphic DNA technique. Thirteen arbitrary primers generated 87 DNA fragments, all of them polymorphic. These data were used to calculate genetic distances among the isolates. The pairwise genetic distances ranged from 1 to 100%, with an average of 58.7%. Cluster analysis based on the amplified fragments grouped the isolates according to their host and geographical origins. Group I contained isolates collected in Brazil and group II those collected in the Northern Hemisphere. In addition to the diversity seen at the molecular level, the isolates also showed host specificity. Greenhouse experiments demonstrated that isolates from the Northern Hemisphere colonized mainly Pinus whereas isolates from Brazil colonized only Eucalyptus. The molecular data suggest that the Pisolithus tinctorius isolates analyzed belong to two distinct groups. The data also suggest new guidelines for future investigations on the taxonomy and systematic of this important fungus species. Furthermore, these results support future experiments aimed at the selection and development of improved isolates of P. tinctorius. Accepted: 3 October 1997     

Pisolithus arhizus ectomycorrhiza affects plant competition for phosphorus between Pinus elliottii and Panicum chamaelonche

 Our objective was to evaluate the ability of an ectomycorrhizal fungus to alter the competitive interaction of pine seedlings growing with grass, and to determine whether the interaction was modified by soil-phosphorus (P) concentration. Slash pine (Pinus elliottii), inoculated with the ectomycorrhizal fungus Pisolithus arhizus or fortuitously colonized by Thelephora terrestris, and a native grass (Panicum chamaelonche) were grown in a greenhouse at three P levels (0.32, 3.22, 32.26 μM H₃PO₄). Pine inoculated with P. arhizus took up more P when competing with the nonmycorrhizal grass than when competing with another pine (irrespective of pine mycorrhizal status). Phosphorus uptake kinetics (C_min, the minimum concentration at which P can be absorbed from a solution; I_max, the maximum uptake rate) for pine and grass were also determined under hydroponic conditions. Pine had a higher I_max than grass but grass had a lower C_min, suggesting that pine is more competitive at higher nutrient concentrations while grass is more competitive at lower nutrient concentrations. The controlled conditions used in these experiments allowed us to evaluate specific parameters (P uptake and absorbing surface area) affecting plant competition. Accepted: 7 August 1999     

彩色豆马勃子实体的化感作用及其化感物质的分离鉴定

彩色豆马勃能与松树、桉树形成外生菌根,研究其次生代谢产物对植物的影响具有重要意义。用水、乙醇和丙酮抽提彩色豆马勃的子实体,发现这些抽提物对稗草和水稻幼苗生长有极显着的抑制作用。丙酮抽提物对狼尾草和油菜幼苗生长有抑制作用。子实体的丙酮抽提物用硅胶柱色谱分离得到2个纯化合物,可鉴定为豆马勃内酯(Pisolactone)和麦角甾醇。该2个化合物在400μg·ml^-1浓度下均显着抑制稗草幼苗根生长。豆马勃内酯在100μg·ml^-1浓度下仍然极显着抑制稗草幼苗根生长.     

The use of Box-Behnken design of experiments to study in vitro salt tolerance by Pisolithus tinctorius

The ectomycorrhizal fungus Pisolithus tinctorius was grown in vitro with different concentrations and combinations of three different sodium salts viz., sodium chloride, sodium sulphate and trisodium citrate (NaCl, Na₂SO4 and Na₃C₆H₅O₇) for 30 days. At the end of the experiment the mycelial biomass and protein content of the fungus was evaluated. Based on the salts tested the combination of NaCl and Na₂SO₄ in optimum concentrations actually promoted the growth of P. tinctorius. Box-Behnken design with three variables like NaCl, Na₂SO₄ and Na₃C₆H₅O₇ was used to identify a significant correlation between the effect of these variables on mycelial biomass production. The experimental values are in good agreement with predicted values, the correlation coefficient being 0.9880.     

In vitro ectomycorrhiza formation between Abies firma and Pisolithus tinctorius

 The first in vitro aseptic synthesis of Abies firma Sieb. et Zucc. with Pisolithus tinctorius (Pers.) Coker & Couch is reported. Techniques were improved for the aseptic synthesis of ectomycorrhizas of A. firma, a slow-growing species in vitro, and Pisolithus tinctorius using a novel culture medium and both sterilized and re-rooted seedlings. After 2–3 months incubation, ectomycorrhizas were formed by both methods. The mycorrhizas possessed a mantle and a highly branched nonseptate Hartig net mycelium colonizing the intercellular spaces within the host cortex, features characteristic of ectomycorrhizas. These techniques will prove useful for addressing physiological and biochemical questions on the interactions of microbes with roots of whole plants. Accepted: 29 June 1999     

Influence of mycorrhization on physiological parameters of micropropagated Castanea sativa Mill. plants

 Mycorrhizal micropropagated Castanea sativa plants were studied in terms of growth and physiological parameters following in vitro mycorrhization with Pisolithus tinctorius. Mycorrhization enhanced growth of micropropagated chestnut plants, increased their protein content and photosynthetic rates, decreased the respiratory rates and CO₂ compensation point. RuBisCO activity was not significantly different in mycorrhizal and control plants, although there was an increase in the amount of RuBisCO in the former. Mycorrhization increased plant biomass and improved plants physiological status, thus enhancing the acclimatization process. Accepted: 21 May 1997     

Variation in nitrogen source utilisation by Pisolithus isolates maintained in axenic culture

The influence of various inorganic and organic nitrogen sources on biomass production by 17 isolates of Australian Pisolithus spp. was investigated before and after a 3-year maintenance period in axenic culture. While some isolates produced similar or higher amounts of biomass on NH₄ ⁺ or certain amino acids after the maintenance period, there was a general trend to reduced biomass production on these substrates. Biomass production by most isolates on bovine serum albumin increased significantly after maintenance. The data are discussed in relation to the use of axenic culture growth experiments for investigations of inter- and intraspecific physiological variation in ectomycorrhizal fungi. Accepted: 22 February 2001     

Molecular characterization of Pisolithus spp. isolates by rDNA PCR-RFLP

 Variation within ribosomal DNA (rDNA) genes of 19 isolates of Pisolithus from different geographic origins and hosts was examined by polymerase chain reaction (PCR) coupled with restriction fragment length polymorphism (RFLP) analysis. The primers utilized amplify rDNA regions in a wide range of fungi. One amplified region includes the internal transcribed spacer (ITS), which has a low degree of conservation. The ITS amplification products (640–750 bp) were digested with a variety of restriction endonucleases. Cluster analysis based on the restriction fragments grouped the isolates into three distinct groups: group I contained isolates collected in the northern hemisphere, except Pt 1, group II contained those collected in Brazil and group III contained isolate Pt 1. Additional analysis of other rDNA regions, IGS, 17 S and 25 S rDNA, resulted in similar groups. The data suggest that the taxonomy and systematics of this ectomycorrhizal fungus should be revised. Accepted: 16 September 1998     

Lipids in roots of Pinus sylvestris seedlings and in mycelia of Pisolithus tinctorius during ectomycorrhiza formation: changes in fatty acid and sterol composition

The composition of fatty acids and sterols in soil lipid fractions is often used as a global indicator for the status and changes of soil microbial communities. In order to validate such analyses in the context of ectomycorrhizal communities, an experiment was performed in which seedlings of Pinus sylvestris and the fungus Pisolithus tinctorius were grown separately, or combined to form ectomycorrhiza under axenic conditions. Fatty acids of the neutral lipid fraction (NLFAs) and the phospholipid fraction (PLFAs) as well as sterols were identified and quantified by gas chromatography–mass spectrometry. When grown separately, the two organisms differed strongly with respect to the sterol composition. Sterols had a much higher relative abundance in the fungus in comparison with the plant, and the two main fungal sterols, ergosterol and 24‐ethyllanosta‐8,24(24′)‐diene‐3beta,22zeta‐diol (Et lano 8,24), as well as six minor fungal sterols were not found in the plant. On the other hand, the three sterols found in plant roots were absent from the fungus. With regard to fatty acids, the lipids of both organisms contained the same three major PLFAs, namely n16:0, 18:2–9,12c, and 18:1–9c. However, plant lipids contained, in addition, eight PLFAs and five NLFAs that were not present in the fungus. On the other hand, the fungus contained two PLFAs and two NLFAs that were not present in the plant. When the fungus and the plant were brought together, there was a drastic change in the lipid composition of the root: within a day, all the saturated fatty acids in the NLFA fraction increased very strongly and then slowly decreased but remained at an elevated level throughout the experiment. All these saturated fatty acids also started to appear in the extraradical fungal mycelium; they increased steadily and reached their highest levels at the end of the experiment. These results indicate that in symbiosis, the fungus transports plant lipids from the symbiotic interface to the extraradical mycelium. Concerning sterols, the extraradical mycelium acquired only a small amount of plant‐specific sterols. However, its ergosterol content steadily decreased whereas the content of Et lano 8,24 remained high, causing the ratio of these two sterols to decrease from 1 : 7 to 1 : 20, whereas in the ectomycorrhizal root, the opposite phenomenon occurred, so that the ratio increased to a value of almost 1 : 1. The marked changes in the composition of the extraradical mycelium were well reflected in a principal component analysis of all lipid components. The present results show that a given ectomycorrhizal fungus may display markedly different lipid compositions in its intraradical and extraradical parts. In addition, they highlight a potential role of plant lipid transfer from the root to the fungus in the functioning of the ectomycorrhizal symbiosis.     

A 31P nuclear magnetic resonance study of phosphate levels in roots of ectomycorrhizal and nonmycorrhizal plants of Castanea sativa Mill.

 ³¹P-Nuclear Magnetic Resonance (NMR) was used to assess phosphate distribution in ectomycorrhizal and nonmycorrhizal roots of Castanea sativa Mill. as well as in the mycorrhizal fungus Pisolithus tinctorius in order to gain insight into phosphate trafficking in these systems. The fungus P. tinctorius accumulated high levels of polyphosphates during the rapid phase of growth. Mycorrhizal and nonmycorrhizal roots accumulate orthophosphate. Only mycorrhizal roots presented polyphosphates. The content in polyphosphates increased along the 3 months of mycorrhiza formation. In mycorrhizal roots of plants cultured under axenic conditions, the orthophosphate pool decreased along the culture time. In nonmycorrhizal roots the decrease in the orthophosphate content was less pronounced. The level of orthophosphate in mycorrhizal roots was significantly lower than in nonmycorrhizal ones, which indicates that this system relies upon the fungal polyphosphates as a major source of phosphate. Received: 28 July 1998 / Accepted: 21 October 1998     

Lignosulfonate promotes the interaction between Scots pine and an ectomycorrhizal fungus Pisolithus tinctorius in vitro

Lignosulfonate (LS) is a lignin-based polymer obtained as a by-product from paper industry, which may have potential as an amendment with macronutrients. We studied effects of LS on the interaction between Scots pine (Pinus sylvestris L.) seedlings and hypocotyl cuttings and the ectomycorrhizal (ECM) fungusPisolithus tinctorius (Pers.) Coker and Couch. The experiments were performed in vitroon the MMN agar medium containing Fe–LS chelate at the concentrations of 0, 5, 10 and 25 mg/L. Inoculation with P. tinctoriusincreased root growth of the seedlings. Fe–LS enhanced P. tinctorius induced formation of lateral roots and had a dose-dependent positive effect on the establishment of mycorrhizas on the seedlings. The growth of the fungal mycelium was improved by Fe–LS, which might cause faster and more intensive contact with the roots and, thus, better root growth and mycorrhiza formation. P.tinctorius enhanced also adventitious root formation and subsequent root growth of the hypocotyl cuttings but without any synergistic effect with Fe–LS. Our study with P. tinctorius and Scots pine in vitro indicates that a low-cost by-product Fe–LS, obtained from paper industry, may be a potential tool to improve the efficiency of fungal inoculations, thus, facilitating the early interaction between an ECM fungus and host seedling.     

Viability of ectomycorrhizal fungus mycelium entrapped in calcium alginate gel

 We studied the viability of fragmented mycelium of Pisolithus tinctorius and Paxillus involutus entrapped in calcium alginate gel to determine the efficacy of this method of producing ectomycorrhizal fungus inoculum. Fungi were grown in MMN solution at 28  °C before being fragmented in a blender and subsequently entrapped in calcium alginate. We tested different ratios of alginate and mycelium suspension to 0.7 M CaCl₂. The ratio 8 : 10 resulted in well-formed beads of the highest viability for Paxillus involutus (99%) and for Pisolithus tinctorius (75%). Paxillus involutus mycelium was more than 90% viable when entrapped mycelium was 10 to 50 days old, and Pisolithus tinctorius attained its highest viability (55%) for 20- to 40-day-old mycelium. Gel entrapped Paxillus involutus mycelium grew well at all temperatures after 30 days of storage, but viability significantly decreased after 60 days storage at 6  °C on dry filter paper. For gel-entrapped Pisolithus tinctorius mycelium, viability was highest when stored at 25  °C in 0.7 M CaCl₂. Entrapment of Paxillus involutus fragmented mycelium in calcium alginate beads under the conditions that we propose can be used successfully to produce inoculum. Accepted: 11 October 1998     

Interactions between Batrachochytrium dendrobatidis and its amphibian hosts: a review of pathogenesis and immunity

The fungus Batrachochytrium dendrobatidis (Bd) causes a lethal skin disease of amphibians, chytridiomycosis, which has caused catastrophic amphibian die-offs around the world. This review provides a summary of host characteristics, pathogen characteristics and host-pathogen responses to infection that are important for understanding disease development.