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Antoni Werner - One of the best experts on this subject based on the ideXlab platform.
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Ultrastructural and cytochemical aspects of the interaction between the ectomycorrhizal fungus Laccaria laccata and the saprotrophic fungi, Trichoderma harzianum and T. virens
Biocontrol Science and Technology, 2007Co-Authors: Marcin Zadworny, Krystyna Idzikowska, Dariusz Jan Smoliński, Antoni WernerAbstract:Abstract Different interactions between soil fungi competing in the rhizosphere with each other are necessary to understand their influence on plant growth and health. The interactions between the ectomycorrhizal (ECM) fungus Laccaria laccata and soil saprotrophic fungi (T. harzianum, T. virens) were studied by transmission electron microscopy, and by gold cytochemistry to assess the potential role of cell wall lytic enzymes in mycoparasitism. Anti-β-1,3-glucan antibody, WGA/ovomucoid–gold complex and PATAg test were used to localize β-1,3-glucan, chitin and polysaccharides. Cytoplasm disorganisation of the saprotrophic fungi occurred concurrently with dissolution of β-1,3-glucan in walls of hyphae and conidia of the saprotrophic fungi. Then digestion of polysaccharides and chitin of colonised fungal structures occurred. The studies suggest sequential contribution of cell wall lytic enzymes and importance of disturbing the host's cell integrity during mycoparasitism. We conclude that the ECM fungus can pa...
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effects of mutual interaction of Laccaria laccata with trichoderma harzianum and t virens on the morphology of microtubules and mitochondria
Protoplasma, 2007Co-Authors: Marcin Zadworny, S Tuszynska, Slawomir Samardakiewicz, Antoni WernerAbstract:Organelles are known to respond to challenges caused by many stress factors. The morphology of the microtubular cytoskeleton and mitochondria during mutual interaction in coculture of Laccaria laccata with Trichoderma harzianum and T. virens were examined. Hyphae from the interaction region were sampled between 4 and 12 days of growth. Microtubules were labelled with a specific antibody and mitochondria with 3,3′-dihexyloxacarbocyanine iodide, and the organelles were examined microscopically. The morphology of microtubules and mitochondria were similar in all three fungi. Microtubules were arranged in long arrays parallel to the hyphal axis and mitochondria formed an interconnected network. In hyphae growing within the interaction zone, microtubules became wavy and eventually fragmented or depolymerised, and mitochondria also became fragmented. The effects were time-dependent. In general, the organelles of all three fungi were affected during the interaction, but L. laccata was affected the least and to the same extent by each of the saprotrophic fungi. The saprotrophic fungi were affected by L. laccata to a similar extent at 4 and 8 days of interaction. Our results suggest that the studied fungi antagonistically affect each other at the cellular level, although the mechanisms involved remain to be elucidated.
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Behaviour of the hyphae of Laccaria laccata in the presence of Trichoderma harzianum in vitro.
Mycorrhiza, 2004Co-Authors: Marcin Zadworny, Antoni Werner, Krystyna IdzikowskaAbstract:The growth rate and the behaviour of Laccaria laccata and Trichoderma harzianum hyphae in co-culture and in the rhizosphere of 3-month-old Pinus sylvestris seedlings grown in vitro were investigated. In the interaction zone, hyphae of L. laccata became more pigmented and formed short branches growing towards the hyphae of the saprobic fungus, coiled around them and penetrated sporadically. Vacuolated hyphae of T. harzianum showed protoplasm granulation and breaks in walls followed by release of protoplasts. In the rhizosphere, the mantle hyphae of L. laccata showed a tendency to surround conidia of T. harzianum. No obvious penetration of the conidial walls by the hyphae of the mycorrhizal fungus was observed by scanning electron microscopy. Instead, in rare cases, the hyphae of L. laccata showed marked wrinkles, and a partial degradation of a mucilaginous material covering the mantle appeared to occur.
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in vitro evidence of mycoparasitism of the ectomycorrhizal fungus Laccaria laccata against mucor hiemalis in the rhizosphere of pinus sylvestris
Mycorrhiza, 2003Co-Authors: Antoni Werner, Marcin ZadwornyAbstract:Interactions between the ectomycorrhizal fungus Laccaria laccata and the soil fungus Mucor hiemalis f. hiemalis in co-culture, and in the rhizosphere of in vitro-grown Pinus sylvestris seedlings were investigated by light- and scanning electron-microscopy. In co-culture, mycelial growth away from the L. laccata colony reduced the number of aerial hyphae at the contact zone and increased the density and compactness of the mycelium-characterized gross morphology of the saprobic fungus. Although the growth of M. hiemalis was suppressed, no penetration of M. hiemalis hyphae after the colony was entered by L. laccata was observed. Instead, dense coiling of L. laccata hyphae around sporangiophores, overpowering them and causing them to disappear, was quite common. On nonmycorrhizal roots, sporangiospores germinated heavily and formed long hyphae for 2 days post inoculation, whereas their germination was totally inhibited on mycorrhizal roots. At 3 days after inoculation, only sporangia were seen with mycelial mats firmly attached to the roots by the mantle hyphae, whereas some remnants of sporangiophores, ruptured sporangial walls and degraded hyphae of M. hiemalis were overgrown by the mantle hyphae. During the next 3 days, the mantle-hyphae-invading sporangia formed short, thin branches that grew directly towards individual spores, tapering off upon contact.
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Content of phenolics in mycorrhizal roots of Pinus sylvestris seedlings grown in vitro
Acta Physiologiae Plantarum, 2002Co-Authors: Anna Napierała-filipiak, Antoni Werner, Piotr KarolewskiAbstract:The effect of Paxillus involutus, Laccaria laccata, Suillus luteus, S. bovinus, Hebeloma crustuliniforme and a strain of the ectendomycorrhizal fungus Mrg X ( Ascomycotina ) on the content of phenolic compounds: ortho-diphenols and total soluble phenols in roots of Pinus sylvestris seedlings grown in vitro was investigated. Mycorrhizal fungi varied significantly in the ability to influence the concentration of phenolics in Scots pine roots. Plants inoculated with S. luteus accumulated the lowest amount of the phenolics, whereas the amount of phenolics in pine roots inoculated with L. laccata was the highest.
Marcin Zadworny - One of the best experts on this subject based on the ideXlab platform.
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Ultrastructural and cytochemical aspects of the interaction between the ectomycorrhizal fungus Laccaria laccata and the saprotrophic fungi, Trichoderma harzianum and T. virens
Biocontrol Science and Technology, 2007Co-Authors: Marcin Zadworny, Krystyna Idzikowska, Dariusz Jan Smoliński, Antoni WernerAbstract:Abstract Different interactions between soil fungi competing in the rhizosphere with each other are necessary to understand their influence on plant growth and health. The interactions between the ectomycorrhizal (ECM) fungus Laccaria laccata and soil saprotrophic fungi (T. harzianum, T. virens) were studied by transmission electron microscopy, and by gold cytochemistry to assess the potential role of cell wall lytic enzymes in mycoparasitism. Anti-β-1,3-glucan antibody, WGA/ovomucoid–gold complex and PATAg test were used to localize β-1,3-glucan, chitin and polysaccharides. Cytoplasm disorganisation of the saprotrophic fungi occurred concurrently with dissolution of β-1,3-glucan in walls of hyphae and conidia of the saprotrophic fungi. Then digestion of polysaccharides and chitin of colonised fungal structures occurred. The studies suggest sequential contribution of cell wall lytic enzymes and importance of disturbing the host's cell integrity during mycoparasitism. We conclude that the ECM fungus can pa...
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effects of mutual interaction of Laccaria laccata with trichoderma harzianum and t virens on the morphology of microtubules and mitochondria
Protoplasma, 2007Co-Authors: Marcin Zadworny, S Tuszynska, Slawomir Samardakiewicz, Antoni WernerAbstract:Organelles are known to respond to challenges caused by many stress factors. The morphology of the microtubular cytoskeleton and mitochondria during mutual interaction in coculture of Laccaria laccata with Trichoderma harzianum and T. virens were examined. Hyphae from the interaction region were sampled between 4 and 12 days of growth. Microtubules were labelled with a specific antibody and mitochondria with 3,3′-dihexyloxacarbocyanine iodide, and the organelles were examined microscopically. The morphology of microtubules and mitochondria were similar in all three fungi. Microtubules were arranged in long arrays parallel to the hyphal axis and mitochondria formed an interconnected network. In hyphae growing within the interaction zone, microtubules became wavy and eventually fragmented or depolymerised, and mitochondria also became fragmented. The effects were time-dependent. In general, the organelles of all three fungi were affected during the interaction, but L. laccata was affected the least and to the same extent by each of the saprotrophic fungi. The saprotrophic fungi were affected by L. laccata to a similar extent at 4 and 8 days of interaction. Our results suggest that the studied fungi antagonistically affect each other at the cellular level, although the mechanisms involved remain to be elucidated.
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Behaviour of the hyphae of Laccaria laccata in the presence of Trichoderma harzianum in vitro.
Mycorrhiza, 2004Co-Authors: Marcin Zadworny, Antoni Werner, Krystyna IdzikowskaAbstract:The growth rate and the behaviour of Laccaria laccata and Trichoderma harzianum hyphae in co-culture and in the rhizosphere of 3-month-old Pinus sylvestris seedlings grown in vitro were investigated. In the interaction zone, hyphae of L. laccata became more pigmented and formed short branches growing towards the hyphae of the saprobic fungus, coiled around them and penetrated sporadically. Vacuolated hyphae of T. harzianum showed protoplasm granulation and breaks in walls followed by release of protoplasts. In the rhizosphere, the mantle hyphae of L. laccata showed a tendency to surround conidia of T. harzianum. No obvious penetration of the conidial walls by the hyphae of the mycorrhizal fungus was observed by scanning electron microscopy. Instead, in rare cases, the hyphae of L. laccata showed marked wrinkles, and a partial degradation of a mucilaginous material covering the mantle appeared to occur.
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in vitro evidence of mycoparasitism of the ectomycorrhizal fungus Laccaria laccata against mucor hiemalis in the rhizosphere of pinus sylvestris
Mycorrhiza, 2003Co-Authors: Antoni Werner, Marcin ZadwornyAbstract:Interactions between the ectomycorrhizal fungus Laccaria laccata and the soil fungus Mucor hiemalis f. hiemalis in co-culture, and in the rhizosphere of in vitro-grown Pinus sylvestris seedlings were investigated by light- and scanning electron-microscopy. In co-culture, mycelial growth away from the L. laccata colony reduced the number of aerial hyphae at the contact zone and increased the density and compactness of the mycelium-characterized gross morphology of the saprobic fungus. Although the growth of M. hiemalis was suppressed, no penetration of M. hiemalis hyphae after the colony was entered by L. laccata was observed. Instead, dense coiling of L. laccata hyphae around sporangiophores, overpowering them and causing them to disappear, was quite common. On nonmycorrhizal roots, sporangiospores germinated heavily and formed long hyphae for 2 days post inoculation, whereas their germination was totally inhibited on mycorrhizal roots. At 3 days after inoculation, only sporangia were seen with mycelial mats firmly attached to the roots by the mantle hyphae, whereas some remnants of sporangiophores, ruptured sporangial walls and degraded hyphae of M. hiemalis were overgrown by the mantle hyphae. During the next 3 days, the mantle-hyphae-invading sporangia formed short, thin branches that grew directly towards individual spores, tapering off upon contact.
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interaction between Laccaria laccata and trichoderma virens in co culture and in the rhizosphere of pinus sylvestris grown in vitro
Mycorrhiza, 2002Co-Authors: Antoni Werner, Marcin Zadworny, Krystyna IdzikowskaAbstract:Interactions between the ectomycorrhizal fungus Laccaria laccata and the soil fungus Trichoderma virens in co-culture and in the rhizosphere of Pinus sylvestris seedlings growing in vitro were investigated by light and scanning electron microscopy. The growth of T. virens was inhibited in co-culture. Shortened, more branched and sometimes deformed or injured hyphae of T. virens were observed in the zone of inhibition. Two-month-old mycorrhizae of P. sylvestris/L. laccata were inoculated with a conidial suspension of T. virens and examined at intervals of 7–24 h and 2, 3, and 6 days post-inoculation (p.i.). On non-mycorrhizal roots, conidia germination was high and long hyphae formed 3 days p.i. On mycorrhizal roots, short germ tubes were observed only sporadically. At 3 days p.i., the mantle hyphae of L. laccata grew towards the conidia and coiled around them. Extremely dense coils of hyphae were found around clusters of conidia. Deformation of conidia, breaks in conidial walls and their partial degradation were observed 6 days p.i.
Krystyna Idzikowska - One of the best experts on this subject based on the ideXlab platform.
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Ultrastructural and cytochemical aspects of the interaction between the ectomycorrhizal fungus Laccaria laccata and the saprotrophic fungi, Trichoderma harzianum and T. virens
Biocontrol Science and Technology, 2007Co-Authors: Marcin Zadworny, Krystyna Idzikowska, Dariusz Jan Smoliński, Antoni WernerAbstract:Abstract Different interactions between soil fungi competing in the rhizosphere with each other are necessary to understand their influence on plant growth and health. The interactions between the ectomycorrhizal (ECM) fungus Laccaria laccata and soil saprotrophic fungi (T. harzianum, T. virens) were studied by transmission electron microscopy, and by gold cytochemistry to assess the potential role of cell wall lytic enzymes in mycoparasitism. Anti-β-1,3-glucan antibody, WGA/ovomucoid–gold complex and PATAg test were used to localize β-1,3-glucan, chitin and polysaccharides. Cytoplasm disorganisation of the saprotrophic fungi occurred concurrently with dissolution of β-1,3-glucan in walls of hyphae and conidia of the saprotrophic fungi. Then digestion of polysaccharides and chitin of colonised fungal structures occurred. The studies suggest sequential contribution of cell wall lytic enzymes and importance of disturbing the host's cell integrity during mycoparasitism. We conclude that the ECM fungus can pa...
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Behaviour of the hyphae of Laccaria laccata in the presence of Trichoderma harzianum in vitro.
Mycorrhiza, 2004Co-Authors: Marcin Zadworny, Antoni Werner, Krystyna IdzikowskaAbstract:The growth rate and the behaviour of Laccaria laccata and Trichoderma harzianum hyphae in co-culture and in the rhizosphere of 3-month-old Pinus sylvestris seedlings grown in vitro were investigated. In the interaction zone, hyphae of L. laccata became more pigmented and formed short branches growing towards the hyphae of the saprobic fungus, coiled around them and penetrated sporadically. Vacuolated hyphae of T. harzianum showed protoplasm granulation and breaks in walls followed by release of protoplasts. In the rhizosphere, the mantle hyphae of L. laccata showed a tendency to surround conidia of T. harzianum. No obvious penetration of the conidial walls by the hyphae of the mycorrhizal fungus was observed by scanning electron microscopy. Instead, in rare cases, the hyphae of L. laccata showed marked wrinkles, and a partial degradation of a mucilaginous material covering the mantle appeared to occur.
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interaction between Laccaria laccata and trichoderma virens in co culture and in the rhizosphere of pinus sylvestris grown in vitro
Mycorrhiza, 2002Co-Authors: Antoni Werner, Marcin Zadworny, Krystyna IdzikowskaAbstract:Interactions between the ectomycorrhizal fungus Laccaria laccata and the soil fungus Trichoderma virens in co-culture and in the rhizosphere of Pinus sylvestris seedlings growing in vitro were investigated by light and scanning electron microscopy. The growth of T. virens was inhibited in co-culture. Shortened, more branched and sometimes deformed or injured hyphae of T. virens were observed in the zone of inhibition. Two-month-old mycorrhizae of P. sylvestris/L. laccata were inoculated with a conidial suspension of T. virens and examined at intervals of 7–24 h and 2, 3, and 6 days post-inoculation (p.i.). On non-mycorrhizal roots, conidia germination was high and long hyphae formed 3 days p.i. On mycorrhizal roots, short germ tubes were observed only sporadically. At 3 days p.i., the mantle hyphae of L. laccata grew towards the conidia and coiled around them. Extremely dense coils of hyphae were found around clusters of conidia. Deformation of conidia, breaks in conidial walls and their partial degradation were observed 6 days p.i.
Christian Brunold - One of the best experts on this subject based on the ideXlab platform.
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effects of cadmium on non mycorrhizal and mycorrhizal norway spruce seedlings picea abies l karst and its ectomycorrhizal fungus Laccaria laccata scop ex fr bk br sulphate reduction thiols and distribution of the heavy metal
New Phytologist, 1993Co-Authors: Ulrich Galli, Martin Meier, Christian BrunoldAbstract:SUMMARY The effect of cadmium on assimilatory sulphate reduction and thiol content was studied in non-mycorrhizal and mycorrhizal Norway spruce seedlings (Picea abies) and its ectomycorrhtzal fungus Laccaria laccata. The distribution of cadmium was also investigated. Isotope dilution experiments indicated that the fungus reduced sulphate via adenosine 3′-phosphate 5′-phosphosulphate sulphotransferase, whereas Norway spruce seedlings assimilated sulphate via adenosine 5′-phosphosulphate sulphotransferase in both roots and needles. In mycorrhizal roots only the plant sulphotransferase activity could be measured. Mycorrhizal and non-mycorrhizal roots and the mycelium of Laccaria laccata contained increased activities of sulphotransferase and more acid-soluble thiols when cultivated with cadmium. The increase in acid-soluble thiols was due to phytochelatins in roots and to glutathione in Laccaria laccata, where neither phytochelatins nor metallothioneins could be detected. Even though the cadmium content of mycorrhizal roots was slightly higher than that of non-mycorrhizal roots, concentrations of phytochelatin were only half as high as in non-mycorrhizal roots. Cadmium content of needles of mycorrhizal plants was significantly lower than that of non-mycorrhizal plants. Most of the cadmium in Laccaria laccata was associated with the cell walls and could be exchanged with Ni2+.
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Effects of cadmium on non‐mycorrhizal and mycorrhizal Norway spruce seedlings [Picea abies (L.) Karst.] and its ectomycorrhizal fungus Laccaria laccata (Scop, ex Fr.) Bk. & Br.: Sulphate reduction, thiols and distribution of the heavy metal
New Phytologist, 1993Co-Authors: Ulrich Galli, Martin Meier, Christian BrunoldAbstract:SUMMARY The effect of cadmium on assimilatory sulphate reduction and thiol content was studied in non-mycorrhizal and mycorrhizal Norway spruce seedlings (Picea abies) and its ectomycorrhtzal fungus Laccaria laccata. The distribution of cadmium was also investigated. Isotope dilution experiments indicated that the fungus reduced sulphate via adenosine 3′-phosphate 5′-phosphosulphate sulphotransferase, whereas Norway spruce seedlings assimilated sulphate via adenosine 5′-phosphosulphate sulphotransferase in both roots and needles. In mycorrhizal roots only the plant sulphotransferase activity could be measured. Mycorrhizal and non-mycorrhizal roots and the mycelium of Laccaria laccata contained increased activities of sulphotransferase and more acid-soluble thiols when cultivated with cadmium. The increase in acid-soluble thiols was due to phytochelatins in roots and to glutathione in Laccaria laccata, where neither phytochelatins nor metallothioneins could be detected. Even though the cadmium content of mycorrhizal roots was slightly higher than that of non-mycorrhizal roots, concentrations of phytochelatin were only half as high as in non-mycorrhizal roots. Cadmium content of needles of mycorrhizal plants was significantly lower than that of non-mycorrhizal plants. Most of the cadmium in Laccaria laccata was associated with the cell walls and could be exchanged with Ni2+.
Ulrich Galli - One of the best experts on this subject based on the ideXlab platform.
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effects of cadmium on non mycorrhizal and mycorrhizal norway spruce seedlings picea abies l karst and its ectomycorrhizal fungus Laccaria laccata scop ex fr bk br sulphate reduction thiols and distribution of the heavy metal
New Phytologist, 1993Co-Authors: Ulrich Galli, Martin Meier, Christian BrunoldAbstract:SUMMARY The effect of cadmium on assimilatory sulphate reduction and thiol content was studied in non-mycorrhizal and mycorrhizal Norway spruce seedlings (Picea abies) and its ectomycorrhtzal fungus Laccaria laccata. The distribution of cadmium was also investigated. Isotope dilution experiments indicated that the fungus reduced sulphate via adenosine 3′-phosphate 5′-phosphosulphate sulphotransferase, whereas Norway spruce seedlings assimilated sulphate via adenosine 5′-phosphosulphate sulphotransferase in both roots and needles. In mycorrhizal roots only the plant sulphotransferase activity could be measured. Mycorrhizal and non-mycorrhizal roots and the mycelium of Laccaria laccata contained increased activities of sulphotransferase and more acid-soluble thiols when cultivated with cadmium. The increase in acid-soluble thiols was due to phytochelatins in roots and to glutathione in Laccaria laccata, where neither phytochelatins nor metallothioneins could be detected. Even though the cadmium content of mycorrhizal roots was slightly higher than that of non-mycorrhizal roots, concentrations of phytochelatin were only half as high as in non-mycorrhizal roots. Cadmium content of needles of mycorrhizal plants was significantly lower than that of non-mycorrhizal plants. Most of the cadmium in Laccaria laccata was associated with the cell walls and could be exchanged with Ni2+.
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Effects of cadmium on non‐mycorrhizal and mycorrhizal Norway spruce seedlings [Picea abies (L.) Karst.] and its ectomycorrhizal fungus Laccaria laccata (Scop, ex Fr.) Bk. & Br.: Sulphate reduction, thiols and distribution of the heavy metal
New Phytologist, 1993Co-Authors: Ulrich Galli, Martin Meier, Christian BrunoldAbstract:SUMMARY The effect of cadmium on assimilatory sulphate reduction and thiol content was studied in non-mycorrhizal and mycorrhizal Norway spruce seedlings (Picea abies) and its ectomycorrhtzal fungus Laccaria laccata. The distribution of cadmium was also investigated. Isotope dilution experiments indicated that the fungus reduced sulphate via adenosine 3′-phosphate 5′-phosphosulphate sulphotransferase, whereas Norway spruce seedlings assimilated sulphate via adenosine 5′-phosphosulphate sulphotransferase in both roots and needles. In mycorrhizal roots only the plant sulphotransferase activity could be measured. Mycorrhizal and non-mycorrhizal roots and the mycelium of Laccaria laccata contained increased activities of sulphotransferase and more acid-soluble thiols when cultivated with cadmium. The increase in acid-soluble thiols was due to phytochelatins in roots and to glutathione in Laccaria laccata, where neither phytochelatins nor metallothioneins could be detected. Even though the cadmium content of mycorrhizal roots was slightly higher than that of non-mycorrhizal roots, concentrations of phytochelatin were only half as high as in non-mycorrhizal roots. Cadmium content of needles of mycorrhizal plants was significantly lower than that of non-mycorrhizal plants. Most of the cadmium in Laccaria laccata was associated with the cell walls and could be exchanged with Ni2+.
