Mykorrhiza/Vorwort:// Autoren, IPB, Georg-Cantor-Gymnasium, PUSH, Literatur


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Weiterführende Literatur/Quellen im Internet


Wir können Ihnen hier leider nur einen sehr kleinen Ausschnitt aus der riesigen Menge wissenschaftlicher Veröffentlichungen zum Thema "Mykorrhiza" präsentieren.

AllgemeinesNährstoffaustauschStrukturenDie PilzeÖkologieMolekulare AnsätzeInternet

Wissenschaftliche Veröffentlichungen zu allgemeinen Fragen zur Mykorrhiza

  • C. Albrecht, R. Geurts, T. Bisseling (1999) Legume nodulation and mycorrhizae formation; two extremes in host specificity meet.
    EMBO J. 18, 281–288.
  • C. Agerer (1991) Characterization of Ectomycorrhizae.
    In Techniques for the study of mycorrhiza. Methods in Microbiology 23, ed. J.R. Norris, D.J. Read, A.K. Varma, 25–27.
  • K.A. Blee, A.J. Anderson (2000) Defense responses in plants to arbuscular mycorrhizal fungi.

  • In Current Advances in Mycorrhizae Research (Hrsg.: G.K. Podila, D.D. Douds, Jr.), APS Press, The American Phytopathological Society, St. Paul, Minnesota 27–44.
  • P. Bonfante, S. Perotto (1995) Strategies of arbuscular mycorrhizal fungi when infecting host plants.

  • New Phytol. 130, 3–21, (The Tansley Review Collections, 2: Mycorrhizas – Structure and Function).
  • H. Beyerle (1995) The role of phytohormones in the function and biology of mycorrhizas.
    In Mycorrhiza: Structure Molecular Biology and Function. ed. A. Varma, B. Hock, 365-390, Berlin, Deutschland: Springer-Verlag.
  • J.W.G. Cairney (2000) Evolution of mycorrhiza systems.

  • Naturwissenschaften 87, 467–475.
  • A.B. Frank (1885) Über die auf Wurzelsymbiose beruhende Ernährung gewisser Bäume durch unterirdische Pilze.

  • Ber. Dtsch. Bot. Ges. 3, 128–145.
  • J. Garbaye (1994) Helper bacteria: a new dimension to the mycorrhizal symbiosis.

  • New Phytol. 128, 197–210, (The Tansley Review Collections, 2: Mycorrhizas – Structure and Function).
  • V. Gianinazzi-Pearson, J. Denarié (1997) Red carpet genetic programmes for root endosymbioses. 
    Trends in Plant Science 2, 371–372.
  • A.O. Jackson, C.B. Taylor (1996) Plant-microbe interactions: life and death at the interface.

  • Plant Cell 8, 1651–1688.
  • F.R. Jones (1924) A mycorrhizal fungus in the roots of legumes and some other plants.

  • J. Agric. Res. 29, 459–470.
  • J.R. Leake (1994) The biology of myco-heterotrophic (saprophytic) plants.

  • New Phytol. 127, 171–216, (The Tansley Review Collections, 2: Mycorrhizas – Structure and Function).
  • C. Logi, C. Sbrana, M. Giovannetti (1998) Cellular events involved in survival of individual arbuscular mycorrhizal symbionts growing in the absence of the host. 
    Appl. and Environ. Microbiol. 64, 3473–3479.
  • M. Parniske (2000) Intracellular accommodation of microbes by plants: a common developmental program for symbiosis and disease?

  • Current Opinion in Plant Biol. 3, 320–328.
  • S.E. Smith, D.J. Read (1997) Mycorrhizal Symbiosis.

  • Academic Press, London.
  • D. Strack, T. Fester, B. Hause, M.H. Walter (2001) Eine unterirdische Lebensgemeinschaft – Die arbuskuläre Mykorrhiza.

  • Biologie in unsere Zeit 31, 286–295.
  • D. Werner (1987) Pflanzliche und Mikrobielle Symbiosen

  • Georg Thieme Verlag, Stuttgart, New York
  • D. Werner (1992) Symbioses of plants and microbes

  • Chapman and Hall, London


Nährstoffaustausch zwischen Pilz und Pflanze

  • B.B. Bago, P.E. Pfeffer, Y. Shachar-Hill (2000) Carbon metabolism and transport in arbuscular mycorrhizas.

  • Plant Physiol. 124, 949–957.
  • B. Botton, M. Chalot (1995) Nitrogen assimilation: enzymology in ectomycorrhizas.
    In Mycorrhiza: Structure Molecular Biology and Function. ed. A. Varma, B. Hock, 325–363, Berlin, Deutschland: Springer-Verlag.
  • B. Botton, F. Martin (1993) Nitrogen metabolism of ectomycorrhizal fungi and ectomycorrhiza. 
    Adv. in Plant Pathol. 9, 83–102.
  • X.Y. Chen, R. Hampp (1993) Sugar uptake by protoplasts of the ectomycorrhizal fungus, Amanita muscaria (L. ex. fr.) Hooker.
    New Phytol. 125, 601–608.
  • G. Cox, P.B. Tinker (1976) Translocation and transfer of nutrients in vesicular-arbuscular mycorrhizas. I. The arbuscule and phosphorus transfer: a quantitative ultrastructural study.
    New Phytol. 7, 371–378.
  • R. Francis, D.J. Read (1984) Direct transfer of carbon between plants connected by vesicular-arbuscular mycorrhizal mycelium. 
    Nature 307, 53–56.
  • S.Imhof (1999) Root morphology, anatomy and mycotrophy of the achlorophyllous Voyria aphylla (Jacq.) Pers. (Gentianaceae).

  • Mycorrhiza 9, 33–39.
  • R.T. Koide (1991) Nutrient supply, nutrient demand and plant response to mycorrhizal infection.

  • New Phytol. 117, 365–386, (The Tansley Review Collections, 2: Mycorrhizas – Structure and Function).
  • P. Salzer, A. Hager (1991) Sucrose utilization of the ectomycorrhizal fungi Amanita muscaria and Hebeloma crustuliniforme depends on the cell wall-bound invertase activity of their host Picea abies.
    Bot. Acta 104, 439–445.
  • S.E. Smith and F.A. Smith (1990) Structure and function of the interfaces in biotrophic symbioses as they relate to nutrient transport.

  • New Phytol. 14, 1–38, (The Tansley Review Collections, 2: Mycorrhizas – Structure and Function).
  • A. Wingler, T. Wallenda, R. Hampp (1996) Mycorrhiza formation on Norway spruce (Picea abies) roots affects the pathway of anaplerotic CO2 fixation. 
    Physiol. Plant. 4, 699–705.

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Strukturen der Mykorrhiza
  • S.J. Barker, D. Tagu, G. Delp (1998) Regulation of root and fungal morphogenesis in mycorrhizal symbioses.

  • Plant Physiol. 116, 1201–1207.
  • D. Blasius, W. Feil, I. Kottke, F. Oberwinkler (1986) Hartig net structure and formation in fully ensheathed ectomycorrhizas.
    Nordic J. Bot. 6, 837–842.
  • Bonfante P. (2001) At the interface between mycorrhizal fungi and plants: the structural organization of cell wall, plasma membrane and cytoskeleton.
    In The Mycota IX, Fungal Associations (Hrsg.: B. Hock), Springer-Verlag, Heidelberg, 45–61.
  • J.W.G. Cairney, R.M. Burke (1996) Physiological heterogeneity within fungal mycelia – an important concept for a functional understanding of the ectomycorrhizal symbiosis.
    New Phytol. 134, 685–695.
  • T. Fester, D. Strack, B. Hause (2001) Reorganization of tobacco root plastids during arbuscule development.

  • Planta 213, 864–868.
  • V. Gianinazzi-Pearson (1996) Plant cell responses to arbuscular mycorrhizal fungi: Getting to the roots of the symbiosis.

  • Plant Cell 8, 1871–1883.
  • M.J. Harrison (1999) Molecular and cellular aspects of the arbuscular mycorrhizal symbiosis.

  • Annu. Rev. Plant Physiol. Plant Mol. Biol. 50, 361–389.
  • L. Scannerini and P. Bonfante-Fasolo (1977) Unusual plastids in an endomycorrhizal root.
    Can. J. Bot. 55, 2471–1474.
  • F.A. Smith and S.E. Smith (1997) Structural diversity in (vesicular)-arbuscular mycorrhizal symbioses.

  • New Phytol. 137, 373–388, (The Tansley Review Collections, 2: Mycorrhizas – Structure and Function).
  • B. Tisserant, V. Gianinazzi-Pearson, S. Gianinazzi, A. Gollote (1993) In planta histochemical staining of fungal alkaline phosphatase activity for analysis of efficient arbuscular endomycorrhizal infections. 
    Mycol. Res. 97, 245–250.
  • J.G.H. Wessels (1997) Hydrophobins: proteins that change the nature of the fungal surface. 
    Adv. in Microbiol. Physiol. 38, 1–45.

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Die Pilzpartner
  • M.L. Berbee, J.W. Taylor (1993) Dating the evolutionary radiations of the true fungi.
    Can. J. Bot. 71, 1114–1127.
  • J.B. Morton, G.L. Benny (1990) Revised classification of arbuscular mycorrhizal fungi (Zygomycetes): a new order, Glomales, two new suborders, Glomineae and Gigasporineae, and two new families, Acaulosporaceae and Gigasporaceae, with an emendation of Glomaceae. 
    Mycotaxon 37, 471–491.
  • D. Redecker, R. Kodner, L.E. Graham (2000) Glomalean Fungi from the Ordovician.

  • Science 289, 1920–1921.
  • D. Redecker, H. Thierfelder, C. Walker, D. Werner (1997) Restriction analysis of PCR-amplified internal transcribed spacers of ribosomal DNA as a tool for species identification in different genera of the order Glomales. 
    Appl. Environ. Microbiol. 63, 1756-1761.
  • W. Remy, T.N. Taylor, H. Hass, H. Kerp (1994) Four hundred-million-year-old vesicular arbuscular mycorrhizae. 
    Proc. Nat. Acad. Sci. USA 91, 11841–11843.
  • I.R. Sanders, M. Alt, K. Groppe, T. Boller, A. Wiemken (1995) Identification of ribosomal DNA polymorphisms among and within spores of the Glomales: application to studies on the genetic diversity of arbuscular mycorrhizal fungal communities. 
    New Phytol. 130, 419–427.

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Ökologie
  • M.F. Allen (1996) The ecology of arbuscular mycorrhizas: a look back into the 20th century and a peak into the 21st.

  • Mycol. Res. 100, 769–782.
  • R. Francis, F.J. Read (1994) The contributions of mycorrhizal fungi to the determination of plant community structure.

  • Plant and Soil 159, 11–25.
  • P. Jeffries, J.M. Barea (2001) Arbuscular mycorrhiza – a key component of sustainable plant-soil ecosystems.

  • In The Mycota IX, Fungal Associations (Hrsg.: B. Hock), Springer-Verlag, Heidelberg, 95–113.
  • H. Mohr (1986) Die Erforschung der neuartigen Waldschäden.

  • Biologie in unserer Zeit 16, 83–89.
  • K.K. Newsham, A.H. Fitter, A.R. Watkinson (1995) Arbuscular mycorrhiza protect an annual grass from root pathogenic fungi in the field.

  • J. Ecol. 83, 991–1000.
  • M. Petgen, A. Schropp, V. Römheld (1997) Mykorrhiza - Ein Wurzelpilz und seine Bedeutung für die Rebe. 
    Der Deutsche Weinbau 16–17, 30–32.
  • D.J. Read, D.H. Lewis, A.H. Fitter, I.J. Alexander (1991) Mycorrhizas in Ecosystems 
    Oxford: CAB International.
  • T. Ritter, G. Weber, I. Kottke, F. Oberwinkler (1989) Zur Mykorrhizaentwicklung von Fichten und Tannen in geschädigten Beständen.

  • Biologie in unserer Zeit 19, 9–15.
  • I.R. Sanders, J.P. Clapp, A. Wiemken (1996) The genetic diversity of arbuscular mycorrhizal fungi in natural ecosystems – a key to understanding the ecology and functioning of the mycorrhizal symbiosis.

  • New Phytol. 133, 123–134.
  • M.G.A. van der Heijden, J.N. Klironomos, M. Ursic, P. Moutoglis, R. Streitwolf-Engel, T. Boller, A. Wiemken, I.R. Sanders (1998) Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity.

  • Nature 396, 69–72.
     
Molekulare Ansätze
  • P. Bonfante, R. Bergero, X. Uribe, C. Romera, J. Rigau, P. Puigdomenech (1996) Transcriptional activation of a maize-tubulin gene in mycorrhizal maize and transgenic tobacco plants.

  • Plant J. 9, 737–743.
  • A. Brun, M. Chalot, B. Botton, F. Martin (1992) Purification and characterization of glutamine-synthetase and NADP-glutamate dehydrogenase from the ectomycorrhizal fungus Laccaria laccata.
    Plant Physiol. 99, 938–944.
  • C. Cordier, M.J. Pozo, J.M. Barea, S. Gianinazzi, V. Gianinazzi-Pearson (1998) Cell defense responses associated with localized and systemic resistance to Phytophthora parasitica induced in tomato by an arbuscular mycorrhizal fungus.

  • Mol. Plant Microbe Interact. 11, 1017–1018.
  • G. Danneberg, C. Latus, W. Zimmer, B. Hundeshagen, H. Schneider-Poetsch, H. Bothe (1993) Influence of vesicular-arbuscular mycorrhiza on phytohormone balances in maize /Zea mays L.).
    J. Plant Physiol. 141, 33–39.
  • B. Dassi, A. Samra, E. Dumas-Gaudot, S. Gianinazzi (1999) Different polypeptide profiles from tomato roots following interactions with arbuscular mycorrhizal (Glomus mosseae) or pathogenic (Phytophthora parasitica) fungi. 
    Symbiosis 26, 65–77.
  • G. Duc, A. Trouvelot, V. Gianinazzi-Pearson, S. Gianinazzi (1999) First report of non-mycorrhizal mutants (myc-) obtained in pea (Pisum sativum L.) and fababean (Vicia faba L.). 
    Plant Science 60, 215–222.
  • E. Dumas-Gaudot, P. Guillaume, A. Tahiri-Alaoui, V. Gianinazzi-Pearson, S. Gianinazzi (1994) Changes in polypeptide patterns in tobacco roots colonized by two Glomus species. 
    Mycorrhiza 4, 215–221.
  • P.J. Forbes, S. Millam, J.E. Hooker, L.A. Harrier (1998) Transformation of the arbuscular mycorrhiza Gigaspora rosea by particle bombardment. 
    Mycol. Res. 102, 497–501.
  • P. Franken, F. Gnädinger (1994) Analysis of parsley arbuscular endomycorrhiza: infection development and mRNA levels of defense-related genes. 
    Mol. Plant-Microbe Interact. 7, 612–620.
  • P. Franken, L. Lapopin, G. Meyer-Gauen, V. Gianinazzi-Pearson (1997) RNA accumulation and genes expressed in spores of the arbucular mycorrhizal fungus Gigaspora rosea.
    Mycologia 89, 293–297.
  • A. Genre, P. Bonfante (1997) A mycorrhizal fungus changes microtubule orientation in tobacco root cells. 
    Protoplasma 199, 30–38.
  • V. Gianinazzi-Pearson and S. Gianinazzi (1989) Cellular and genetical aspects of the interactions between host and fungal symbionts in mycorrhizae. 
    Genome 31, 366–341.
  • V. Gianinazzi-Pearson et al. (1995) Cellular and molecular defence-related root responses to invasion by arbuscular mycorrhizal fungi.

  • New Phytol. 133, 45–57.
  • M.J. Harrison (1996) A sugar transporter from Medicago truncatula: altered expression pattern in roots during vesicular-arbuscular (VA) mycorrhizal associations.

  • Plant J. 9, 491–503.
  • M.J. Harrison, M.L. Van Buuren (1995) A phosphate transporter from the mycorrhizal fungus Glomus versiforme
    Nature 378, 626–629.
  • B. Kaestner, R. Tenhaken, H. Kauss (1998) Chitinase in cucumber hypocotyls is induced by germinating fungal elicitor in synergism with inducers of acquired resistance. 
    Plant J. 13, 447–454.
  • M. Kaldorf, E.Schmelzer, H. Bothe (1998) Expression of maize and fungal nitrate reductase genes in arbuscular mycorrhiza.

  • Mol. Plant-Microbe Interact. 11, 439–448.
  • F. Krajinski, A. Biela, D. Schubert, V. Gianinazzi-Pearson, R. Kaldenhoff, P. Franken (2000) Arbuscular mycorrhiza development regulates the mRNA abundance of Mtaqp1 encoding a mercury-insensitive aquaporin of Medicago truncatula.

  • Planta 211, 85–90.
  • H. Liu, A.T. Trieu, L.A. Blaylock, M.J. Harrison (1997) Cloning and characterization of two phosphate transporters from Medicago truncatula roots: regulation in response to phosphate and to colonization by arbuscular mycorrhizal fungi. 
    Mol. Plant-Microbe Interact. 11, 14–22.
  • W. Maier, H. Peipp, J. Schmidt, V. Wray, D. Strack (1995) Levels of a terpenoid glycoside (blumenin) and cell wall-bound phenolics in some cereal mycorrhizas.

  • Plant Physiol. 109, 465–470.
  • F. Martin, P. Laurent, D. Carvalho, T. Burgess, P. Murphy, U. Nehls, D. Tagu (1995) Fungal gene expression during ectomycorrhiza formation. 
    Can. J. Bot. 73, 1993.
  • F. Martin-Laurent, D. Van Tuinen, E. Dumas-Gaudot, V. Gianinazzi-Pearson, S. Gianinazzi, P. Franken (1997) Differential display analysis of RNA acumulation in arbuscular mycorrhiza of pea and isolation of a novel symbiosis-regulated plant gene. 
    Mol. Gen. Genet. 256, 37–44.
  • P.J. Murphy, P. Langridge, S.E. Smith (1997) Cloning plant genes differentially expressed during colonization of roots of Hordeum vulgare by the vesicular-arbuscular mycorrhizal fungus Glomus intraradices
    New Phytol. 135, 291–301.
  • U. Nehls, J. Wiese, M. Guttenberger, R. Hampp (1998) Carbon allocation in ectomycorrhizas - identification and expression analysis of an Amanita muscaria monosaccharide transporter. 
    Mol. Plant-Microbe Interact. 11, 167–176.
  • D. Tagu, I. Kottke, F. Martin (1998) Hydrophobins in ectomycorrhiazl symbiosis - Hypothesis. 
    Symbiosis 25, 5–18.
  • S. Trouvelot, D. van Tuinen, M. Hijri, V. Gianinazzi-Pearson (1999) Visualization of ribosomal DNA loci in spore interphasic nuclei of Glomalean fungi by fluorescence in situ hybridization. 
    Mycorrhiza 8, 203–206.
  • P. van Rhijn, Y. Fang, S. Galili, O. Shaul, N. Atzmon, S. Wininger Y. Eshed, M. Lum, Y. Li, V. To, N. Fujishige, Y. Kapulnik, A.M. Hirsch (1997) Expression of early nodulin genes in alfalfa mycorrhizae indicates that signal transduction pathways used in forming arbuscular mycorrhizae and Rhizobium-induced nodules may be conserved. 
    Proc. Nat. Acad. Sci. USA 94, 5467–5472.
  • M.H. Walter, T.Fester, D. Strack (2000) Arbuscular mycorrhizal fungi induce the non-mevalonate methylerythritol phosphate pathway of isoprenoid biosynthesis correlated with accumulation of the yellow pigment and other apocarotenoids.

  • Plant J. 21, 571–576.
  • E. Wegel, L. Schauser, N. Sandal, J. Stougaard, M. Parniske (1998) Mycorrhiza mutants of Lotus japonicus define genetically independent steps during symbiotic infection. 
    Mol. Plant-Microbe Interact. 11, 933–936.
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