Advanced search
Publication Cover
Critical Reviews in Microbiology Volume 42, 2016 - Issue 3
Submit an article Journal homepage
1,776
Views
62
CrossRef citations to date
0
Altmetric
Review Article

Plant–fungal interactions: What triggers the fungi to switch among lifestyles?

Mahendra RaiDepartment of Biotechnology, SGB Amravati University, Amravati, Maharashtra, IndiaCorrespondence[email protected]
&
Gauravi AgarkarDepartment of Biotechnology, SGB Amravati University, Amravati, Maharashtra, India
Pages 428-438 | Received 11 Jul 2014, Accepted 21 Aug 2014, Published online: 10 Nov 2014

References

  • Alonso-Ramirez A, Rodriguez D, Reyes D, et al. (2009). Evidence for a role of gibberellins in salicylic acid modulated early plant responses to abiotic stress in Arabidopsis thaliana seeds. Plant Physiol 150:1335–44
  • Alvarez-Loayza P, White JF Jr, Torres MS, et al. (2011). Light converts endosymbiotic fungus to pathogen, influencing seedling survival and niche-space filling of a common tropical tree, Iriartea deltoidea. PLoS One 6:e16386
  • Aly AH, Debbab A, Proksch P. (2011). Fungal endophytes: unique plant inhabitants with great promises. Appl Microbiol Biotechnol 90:1829–45
  • Amna T, Puri SC, Verma V, et al. (2006). Bioreactor studies on the endophytic fungus Entrophospora infrequens for the production of an anticancer alkaloid camptothecin. Can J Microbiol 52:189–96
  • Arnold AE, Henk DA, Eells RL, et al. (2007). Diversity and phylogenetic affinities of foliar fungal endophytes in loblolly pine inferred by culturing and environmental PCR. Mycologia 99:185–206
  • Arnold AE, Lutzoni F. (2007). Diversity and host range of foliar fungal endophytes: are tropical leaves biodiversity hotspots? Ecology 88:541–9
  • Arnold AE, Maynard Z, Gilbert GS. (2001). Fungal endophytes in dicotyledonous neotropical trees: Patterns of abundance and diversity. Mycol Res 105:1502–7
  • Arnold AE, Mejia LC, Kyllo D, et al. (2003). Fungal endophytes limit pathogen damage in a tropical tree. Proc Natl Acad Sci USA 100:15649–54
  • Atsatt PR, Whiteside MD. (2014). Novel symbiotic protoplasts formed by endophytic fungi explain their hidden existence, lifestyle switching and diversity within the plant kingdom. PLoS One 9:e95266
  • Babu AG, Shea PJ, Oh BT. (2014). Trichoderma sp. PDR1-7 promotes Pinus sylvestris reforestation of lead-contaminated mine tailing sites. Sci Total Environ 476:561–7
  • Bacon CW, Hill NS. (1996). Symptomless grass endophytes: products of coevolutionary symbioses and their role in the ecological adaptations of grasses. In: Redkin SC, Carris LM, eds. Endophytic fungi in grasses and woody plants. St. Paul, MN: APS Press, 155–78
  • Bacon CW, White JF. (2000). Microbial endophytes. New York: Marcel Deker Inc., 99–101
  • Bacon CW, Yates IE. (2006). Endophytic root colonization by Fusarium species: histology, plant interactions and toxicity. In: Schultz BJE, Boyle CJC, Sieber TN, eds. Microbial root endophytes. Berlin: Springer-Verlag, 133–52
  • Bailey BA, Bae H, Strem MD, et al. (2008). Antibiosis, mycoparasitism and colonization success for endophytic Trichoderma isolates with biological control potential in Theobroma cacao. Biol Control 46:24–35
  • Bidartondo MI, Redecker D, Hijri I, et al. (2002). Epiparasitic plants specialized on arbuscular mycorrhizal fungi. Nature, 419:389–92
  • Bonfante P, Genre A. (2010). Mechanisms underlying beneficial plant-fungus interactions in mycorrhizal symbiosis. Nat Commun 1. doi: 10.1038/ncomms1046
  • Botella L, Diez JJ. (2011). Phylogenic diversity of fungal endophytes in Spanish stands of Pinus halepensis. Fungal Div 47:9–18
  • Carroll GC. (1988). Fungal endophytes in stems and leaves: from latent pathogen to mutualistic symbiont. Ecology 69:2–9
  • Chithra S, Jasim B, Sachidanandan P, et al. (2014). Piperine production by endophytic fungus Colletotrichum gloeosporioides isolated from Piper nigrum. Phytomedicine 21:534–40
  • Christensen MJ, Bennett RJ, Schmid J. (2002). Growth of Epichloë/Neotyphodium and p-endophytes in leaves of Lolium and Festuca grasses. Mycol Res 106:93–106
  • Clarke SM, Mur LAJ, Wood JE, Scott IM. (2004). Salicylic acid dependent signaling promotes basal thermotolerance but is not essential for acquired thermotolerance in Arabidopsis thaliana. Plant J 38:432–47
  • Clay K, Holah J. (1999). Fungal endophyte symbiosis and plant diversity in successional fields. Science 285:1742–5
  • Clay K, Schardl CL. (2002). Evolutionary origins and ecological consequences of endophyte symbiosis with grasses. Am Nat 160:S99–127
  • Contreras-Cornejo HA. (2009). Trichoderma virens, a plant beneficial fungus, enhances biomass production and promotes lateral root growth through an auxin-dependent mechanism in Arabidopsis. Plant Physiol 149:1579–92
  • De Bary A. (1879). Die erschenung symbiose. In: Trubner KJ, ed. Vortrag auf der versammlung der naturforscher und artze zu cassel. Strassburg, 1–30
  • Dickson S, Smith SE, Smith FA. (1999). Characterization of two arbuscular mycorrhizal fungi in symbiosis with Allium porrum: colonization, plant growth and phosphate uptake. New Phytol 144:163–72
  • Elena GJ, Beatriz PJ, Alejandro P, Roberto LE. (2011). Metarhizium anisopliae (Metschnikoff) Sorokin promotes growth and has endophytic activity in Tomato plants. Adv Biol Res 5:22–7
  • Ernst M, Mendgen KW, Wirsel SGR. (2003). Endophytic fungal mutualists: seed-borne Stagonospora spp. enhance reed biomass production in axenic microcosms. Mol Plant Microbe In 16:580–7
  • Faeth SH, Bultman TL. (2002). Endophytic fungi and interactions among host plants, herbivores and natural enemies. In: Tscharnkte T, Hawkins BA, eds. Multitrophic level interactions. Cambridge: Cambridge University Press, 89–123
  • Faeth SH, Fagan WF. (2002) Fungal endophytes: common host plant symbionts but uncommon mutualists. Integ Comp Biol 42:360–8
  • Fisher PJ, Petrini O. (1992) Fungal saprobes and pathogens as endophytes of rice (Oryza sativa L.). New Phytol 120:137–43
  • Freeman S, Horowitz S, Sharon A. (2001). Pathogenic and nonpathogenic lifestyles in Colletotrichum acutatum from strawberry and other plants. Phytopathology 91:986–92
  • Freeman S, Rodriguez RJ. (1993). Genetic conversion of a fungal plant pathogen to a nonpathogenic, endophytic mutualist. Science 260:75–8
  • Ganley RJ, Brunsfeld SJ, Newcombe G. (2004). A community of unknown, endophytic fungi in western white pine. Proc Natl Acad Sci 101:10107–12
  • Gazis R, Chaverri P. (2010). Diversity of fungal endophytes in leaves and stems of wild rubber trees (Hevea brasiliensis) in Peru. Fungal Ecol 3:240–54
  • Hahn M, Mendgen K. (2001). Signal and nutrient exchange at biotrophic plant-fungus interfaces. Curr Opin Plant Biol 4:322–7
  • Hallmann J, Quadt-Hallmann A, Miller WG, et al. (2001). Endophytic colonization of plants by the biocontrol agent Rhizobium etli G12 in relation to Meloidogyne incognita infection. Phytopathology 91:415–22
  • Hamayun M, Khan SA, Khan AL, et al. (2009a). Phoma herbarum as a new gibberellin-producing and plant growth- promoting fungus. J Microbiol Biotechnol 19:1244–9
  • Hamayun M, Khan SA, Kim HY, et al. (2009b). Gibberellin production and plant growth enhancement by newly isolated strain of Scolecobasidium tshawytschae. J Microbiol Biotechnol 19:560–5
  • Hata K, Futai K. (1993). Effect of needle aging on the total colonization rate of endophytic fungi on Pinus thunbergii and Pinus densiflora needles. J Jpn Forest Soc 75:338–41
  • Hawksworth DL. (2001). The magnitude of fungal diversity: the 1.5 million species estimate revisted. Mycol Res 105:1422–32
  • Higgins KL, Arnold AE, Miadlikowska J, et al. (2007). Phylogenetic relationships, host affinity, and geographic structure of boreal and arctic endophytes from three major plant lineages. Mol Phylogenet Evol 42:543–55
  • Hilarino MPA, de Oliveira e Silveira FA, Oki Y, et al. (2011). Distribution of the endophytic fungi community in leaves of Bauhinia brevipes (Fabaceae). Acta Bot Bras 25:815–21
  • Hossain MM, Sultana F, Miyazawa M, Hyakumachi M. (2014). The plant growth promoting fungus Penicillium spp. GP15-1 enhances growth and confers protection against damping-off and anthracnose in the Cucumber. J Oleo Sci 63:391–400
  • Hubbard M, Germida JJ, Vujanovic V. (2014). Fungal endophytes enhance wheat heat and drought tolerance in terms of grain yield and second-generation seed viability. J Appl Microbiol 116:109–22
  • Hyde KD, Zhou DQ, Dalisay T. (2002). Bambicolous fungi: a review. Fungal Div 9:1–14
  • Jeewon R, Liew ECY, Hyde KD. (2004). Phylogenetic evaluation of species nomenclature of Pestalotiopsis in relation to host association. Fungal Div 17:39–55
  • Johnson NC, Graham JH, Smith FA. (1997). Functioning of mycorrhizal associations along the mutualism-parasitism continuum. New Phytol 135:575–85
  • Kawaguchi M, Minamisawa K. (2010). Plant-microbe communications for symbiosis. Plant Cell Physiol 51:1377–80
  • Khan AL, Hamayun M, Kang SM, et al. (2012). Endophytic fungal association via gibberellins and indole acetic acid can improve plant growth under abiotic stress: an example of Paecilomyces formosus LHL10. BMC Microbiol 12:1–14
  • Khan SA, Hamayun M, Yoon HJ, et al. (2008). Plant growth promotion and Penicillium citrinum. BMC Microbiol 8:231
  • Kogel KH, Franken P, Huckelhoven R. (2006). Endophyte or parasite – what decides? Curr Opin Plant Biol 9:358–63
  • Kowalski O. (1993). Fungi in living symptomless needles of Pinus sylvestris with respect to some observed disease processes. J Phytopathol 139:129–45
  • Kowalski T, Kehrr D. (1997). Fungal endophytes of living branch bases in several European tree species. In: Redlin SC, Carris LM, eds. Endophytic fungi in grasses and woody plants: systematics, ecology and evolution. St. Paul, MN: APS Press, 67–86
  • Krings M, Taylor TN, Hass H, et al. (2007). Fungal endophytes in a 400 million‑yr‑old land plant: infection pathways, spatial distribution and host responses. New Phytol 174:648–57
  • Kumar M, Yadav V, Kumar H, et al. (2011). Piriformospora indica enhances plant growth by transferring phosphate. Plant Signal Behav 6:723–5
  • Kumar S, Kaushik N. (2013). Endophytic fungi isolated from oil-seed crop Jatropha curcas produces oil and exhibit antifungal activity. PLoS One 8:e56202
  • Kuo HC, Hui S, Choi J, et al. (2014). Secret lifestyles of Neurospora crassa. Sci Rep 4. doi: 10.1038/srep05135
  • Kusari S, Lamshoft M, Spiteller M. (2009a). Aspergillus fumigates Fresenius, an endophytic fungus from Juniperus communis L. Horstmann as a novel source of the anticancer pro-drug deoxypodophyllotoxin. J Appl Microbiol 107:1019–30
  • Kusari S, Zuhlke S, Spiteller M. (2009b). An endophytic fungus from Camptotheca acuminata that produces camptothecin and analogues. J Nat Prod 72:2–7
  • Lana TG, Azevedo JL, Pomella AWV, et al. (2011). Endophytic and pathogenic isolates of the cacao fungal pathogen Moniliophthora perniciosa (Tricholomataceae) are indistinguishable based on genetic and physiological analysis. Genet Mol Res 10:326–34
  • Lekberg Y, Koide RT. (2005). Is plant performance limited by abundance of arbuscular mycorrhizal fungi? A meta-analysis of studies published between 1988 and 2003. New Phytol 168:189–204
  • Lerat S, Lapointe L, Piche Y, Vierheilig H. (2003). Variable carbon sink strength of different Glomus mosseae strains colonizing barley roots. Can J Bot 81:886–9
  • Lewis DH. (1985). Symbiosis and mutualism: crisp concepts and soggy semantics. In: Boucher DH, ed. The biology of mutualism. London: Croom Helm Ltd, 29–39
  • Lingqi Z, Bo G, Haiyan L, et al. (2000). Preliminary study on the isolation of endophytic fungus of Catharanthus roseus and its fermentation to produce products of therapeutic value. Zhong Cao Yao 31:805–7
  • Mahmoud RS, Narisawa K. (2013). A new fungal endophyte, Scolecobasidium humicola, promotes tomato growth under organic nitrogen conditions. PLoS One 8:e78746
  • Malinowski DP, Belesky DP. (2000). Adaptations of endophtye-infected cool-season grasses to environmental stresses: mechanisms of drought and mineral stress tolerance. Crop Sci 40:923–40
  • Marina S, Angel M, Silva-Flores MA, et al. (2011). The plant growth-promoting fungus Aspergillus ustus promotes growth and induces resistance against different lifestyle pathogens in Arabidopsis thaliana. J Microbiol Biotechnol 21:686–96
  • Marquez LM, Redman RS, Rodriguez RJ, Roossinck MJ. (2007). A virus in a fungus in a plant – three way symbiosis required for thermal tolerance. Science 315:513–15
  • Moricca S, Ragazzi A. (2008). Fungal endophytes in Mediterranean oak forests: a lesson from Discula quercina. Phytopathology 98:380–6
  • Muller CB, Krauss J. (2005). Symbiosis between grasses and asexual fungal endophytes. Curr Opin Plant Biol 8:450–6
  • Munns R, Tester M. (2008). Mechanisms of salinity tolerance. Ann Rev Plant Biol 59:651–81
  • Murali TS, Suryanarayanan TS, Geeta R. (2006). Endophytic Phomopsis species: host range and implications for diversity estimates. Can J Microbiol 52:673–80
  • Murphy BR, Doohan FM, Hodkinson TR. (2014). Yield increase induced by the fungal root endophyte Piriformospora indica in barley grown at low temperature is nutrient limited. Symbiosis 62:29–39
  • Naznin HA, Kiyohara D, Kimura M, et al. (2014). Systemic resistance induced by volatile organic compounds emitted by plant growth-promoting fungi in Arabidopsis thaliana. PLoS One 9:e86882
  • Omacini M, Chaneton EJ, Ghersa CM, Muller CB. (2001). Symbiotic fungal endophytes control insect host-parasite interaction webs. Nature 409:78–81
  • Otero JT, Ackerman JD, Bayman P. (2002). Diversity and host specificity of endophytic Rhizoctonia -like fungi from tropical orchids. Am J Bot 89:1852–8
  • Otero JT, Flanagan NS, Herre EA, et al. (2007). Widespread mycorrhizal specificity correlates to mycorrhizal function in the neotropical, epiphytic orchid Ionopsis utricularioides (Orchidaceae). Am J Bot 94:1944–50
  • Pandey AK, Reddy MS, Suryanarayanan TS. (2003). ITS-RFLP and ITS sequence analysis of a foliar endophytic Phyllosticta from different tropical trees. Mycol Res 107:439–44
  • Pang K-L, Vrijmoed LLP, Goh TK, et al. (2008). Fungal endophytes associated with Kandelia candel (Rhizophoraceae) in Mai Po Nature Reserve, Hong Kong. Bot Mar 51:171–8
  • Petrini O, Carroll GC. (1981). Endophytic fungi in foliage of some Cupressaceae in Oregon. Can J Bot 59:629–39
  • Petrini O. (1986). Taxonomy of endophytic fungi of aerial plant tissues. In: Fokkema NJ, van den Huevel J, eds. Microbiology of the phyllosphere. Cambridge, UK: Cambridge University Press, 175–87
  • Petrini O. (1991). Fungal endophytes of tree laeves. In: Andrews JH, Hirano SS, eds. Microbial ecology of leaves. New York: Springer, 179–97
  • Photita W, Lumyong S, Lumyong P, et al. (2004). Are some endophytes of Musa acuminata latent pathogens? Fungal Div 16:131–40
  • Pineda A, Zheng SJ, van Loon JJA, et al. (2010). Helping plants to deal with insects: the role of beneficial soilborne microbes. Trends Plant Sci 15:507–14
  • Pirozynski KA, Malloch DW. (1975). The origin of land plants: a matter of mycotrophism. Biosystems 6:153–64
  • Prasad R, Kamal S, Sharma PK, et al. (2013). Root endophyte Piriformospora indica DSM11827 alters plant morphology, enhances biomass and antioxidant activity of medicinal plant Bacopa monniera. J Basic Microbiol 53:1016–24
  • Puri SC, Nazir A, Chawla R, et al. (2006). The endophytic fungus Trametes hirsuta as a novel alternative source of podophyllotoxin and related aryl tetralin lignans. J Biotechnol 122:494–510
  • Puri SC, Verma V, Amna T, et al. (2005). An endophytic fungus from Nothapodytes foetida that produces camptothecin. J Nat Prod 68:1717–19
  • Rai M, Varma A. (2005). Arbuscular mycorrhiza-like biotechnological potential of Piriformospora indica, which promotes the growth of Adhatoda vasica Nees. Electron J Biotechnol 8:107–12
  • Rai MK, Rathod DP, Agarkar GA, et al. (2014). Fungal growth promotor endophytes: a pragmatic approach towards sustainable food and agriculture. Symbiosis 62:63–79
  • Rajjou L, Belghazi M, Huguet R, et al. (2006). Proteomic investigation of the effect of salicylic acid on Arabidopsis seed germination and establishment of early defense mechanisms. Plant Physiol 141:910–23
  • Read DJ. (1999). Mycorrhiza-the state of the art. In: Varma A, Hock B, eds. Mycorrhiza. Berlin: Springer-Verlag, 3–34
  • Redecker D, Kodner R, Graham LE. (2000). Glomalean fungi from the Ordovician. Science 289:1920–1
  • Redman RS, Dunigan DD, Rodriguez RJ. (2001). Fungal symbiosis: from mutualism to parasitism, who controls the outcome, host or invader? New Phytol 151:705–16
  • Redman RS, Freeman S, Clifton DR, et al. (1999). Biochemical analysis of plant protection afforded by a non-pathogenic endophytic mutant of Colletotrichum magna (teleomorph: Glomerella magna; Jenkins and Winstead 1964). Plant Physiol 119:795–804
  • Redman RS, Kim YO, Woodward CJDA, et al. (2011). Increased fitness of rice plants to abiotic stress via habitat adapted symbiosis: a strategy for mitigating impacts of climate change. PLoS One 6:e14823
  • Redman RS, Roossinck MJ, Maher S, et al. (2002b). Field performance of cucurbit and tomato plants colonized with a nonpathogenic mutant of Colletotrichum magna (teleomorph: Glomerella magna; Jenkins and Winstead). Symbiosis 32:55–70
  • Redman RS, Sheehan KB, Stout RG, et al. (2002a). Thermotolerance generated by plant/fungal symbiosis. Science 298:1581
  • Rodrigues KF, Samuels GJ. (1999). Fungal endophytes of Spondias mombin leaves in Brazil. J Basic Microbiol 39:131–5
  • Rodriguez R, Redman R. (2008). More than 400 million years of evolution and some plants still can't make it on their own: plant stress tolerance via fungal symbiosis. J Exp Bot 59:1109–14
  • Rodriguez RJ, Henson J, Van Volkenburgh E, et al. (2008). Stress tolerance in plants via habitat-adapted symbiosis. Int Soc Microb Ecol 2:404–16
  • Rodriguez RJ, Redman RS, Henson JM. (2004). The role of fungal symbioses in the adaptation of plants to high stress environments. Mitig Adapt Strat Gl 9:261–72
  • Rodriguez RJ, Redman RS, Henson JM. (2005). Symbiotic lifestyle expression by fungal endophytes and the adaptation of plants to stress: unraveling the complexities of intimacy. In: Dighton J, Oudemans P, White J, eds. The fungal community: its organization and role in the ecosystem. Boca Raton, FL: Taylor & Francis/CRC Press, 683–96
  • Rodriguez RJ, White JF Jr, Arnold AE, Redman RS. (2009). Fungal endophytes: diversity and functional roles. New Phytol 182:314–30
  • Ruiz-Lozano JM, Roussel H, Gianinazzi S, Gianinazzi-Pearson V. (1999). Defense genes are differentially induced by a mycorrhizal fungus and Rhizobium sp. in wild-type and symbiosis defective pea genotypes. Mol Plant Microbe Interact 12:976–84
  • Sahay NS, Varma A. (1999). Piriformospora indica: a new biological hardening tool for micropropagated plants. FEMS Microbiol Lett 181:297–302
  • Saikkonen K, Faeth SH, Helander M, Sullivan TJ. (1998). Fungal endophytes: a continuum of interactions with host plants. Annu Rev Ecol Syst 29:319–43
  • Salminen SO, Richmond DS, Grewal SK, Grewal PS. (2005). Influence of temperature on alkaloid levels and fall armyworm performance in endophytic tall fescue and perennial ryegrass. Entomol Exp Appl 115:417–26
  • Schardl CL, Leuchtmann A, Spiering MJ. (2004). Symbioses of grasses with seed borne fungal endophytes. Annu Rev Plant Biol 55:315–40
  • Schardl CL, Leuchtmann A. (2005). The Epichloe endophytes of grasses and the symbiotic continuum. In: Dighton J, White JF, Oudemans P, eds. The fungal community: its organization and role in the ecosystem. Boca Raton, FL: CRC Press, 475–503
  • Schardl CL, Liu J-S, White JF, et al. (1991). Molecular phylogenetic relationships of nonpathogenic grass mycosymbionts and clavicipitaceous plant pathogens. Plant Syst Evol 178:27–41
  • Schulz B, Boyle C. (2005). The endophytic continuum. Mycol Res 109:661–86
  • Schulz B, Rommert A-K, Dammann U, et al. (1999). The endophyte-host interaction: a balanced antagonism. Mycol Res 103:1275–83
  • Selim KA, El-Beih AA, AbdEl-Rahman TM, El-Diwany AI. (2012). Biology of endophytic fungi. Curr Res Environ Appl Mycol 2:31–82
  • Sieber TN. (2007). Endophytic fungi in forest trees: are they mutualists? Fungal Biol Rev 21:75–89
  • Sikora RA. (1997). Biological system management in the rhizosphere and inside-out/outside-in perspective. Commun Agric Appl Biol Sci 62:105–12
  • Smith SE, Smith FA, Jakobsen I. (2003). Mycorrhizal fungi can dominate phosphate supply to plants irrespective of growth responses. Plant Physiol 133:16–20
  • Suryanarayanan TS, Thirunavukkarasu N, Govindarajulu MB, et al. (2009). Fungal endophytes and bioprospecting. Fungal Biol Rev 23:9–19
  • Tanaka A, Christensen MJ, Takemoto D, et al. (2006). Reactive oxygen species play a role in regulating a fungus – perennial ryegrass mutualistic interaction. Plant Cell 18:1052–66
  • Thakur A, Kaur S, Kaur A, Singh V. (2013). Enhanced resistance to Spodoptera litura in endophyte infected cauliflower plants. Environ Entomol 42:240–6
  • Tintjer T, Leuchtmann A, Clay K. (2008). Variation in horizontal and vertical transmission of the endophyte Epichloe elymi infecting the grass Elymus hystrix. New Phytol 179:236–46
  • Todd D. (1988). The effects of host genotype, growth rate, and needle age on the distribution of a mutualistic, endophytic fungus in Douglas-fir plantations. Can J For Res 18:601–5
  • Trivedi DK, Bhatt H, Pal RK, et al. (2013). Structure of RNA-interacting Cyclophilin A-likeprotein from Piriformospora indica that provides salinity-stress tolerance in plants. Sci Rep 3. doi: 10.1038/srep03001
  • Unterseher M, Schnittler M. (2010). Species richness analysis and ITS rDNA phylogeny revealed the majority of cultivable foliar endophytes from beech (Fagus sylvatica). Fungal Ecol 3:366–78
  • Usuki F, Narisawa K. (2007). A mutualistic symbiosis between a dark-septate endophytic fungus, Heteroconium chaetospira and a nonmycorrhizal plant, Chinese cabbage. Mycologia 99:175–84
  • Van Bael SA, Maynard Z, Robbins N, et al. (2005). Emerging perspectives on the ecological roles of endophytic fungi in tropical plants. In: Dighton J, Oudemans P, White J, eds. The fungal community: its organization and role in the ecosystem. Boca Raton, FL: CRC Press, 181–91
  • Van Loon LC. (2007). Plant responses to plant growth-promoting rhizobacteria. Eur J Plant Pathol 119:243–54
  • Verma S, Varma A, Rexer K, et al. (1998) Piriformospora indica, gen. et sp. nov., a new root-colonizing fungus. Mycologia 90:896–903
  • Waller F, Achatz B, Baltruschat H, et al. (2005). The endophytic fungus Piriformospora indica reprograms barley to salt-stress tolerance, disease resistance, and higher yield. Proc Natl Acad Sci USA 102:13386–91
  • Waqas M, Khan AL, Hamayun M, et al. (2012a). Assessment of endophytic fungi cultural filtrate on soybean seed germination. Afr J Biotechnol 11:15135–43
  • Waqas M, Khan AL, Kamran M, et al. (2012b). Endophytic fungi produce gibberellins and indole-acetic acid and promotes host-plant growth during stress. Molecules 17:10754–73
  • Wu L, Han T, Li W, et al. (2013). Geographic and tissue influences on endophytic fungal communities of Taxus chinensis var. mairei in China. Curr Microbiol 66:40–8
  • Yamaguchi S. (2008). Gibberellin metabolism and its regulation. Annu Rev Plant Biol 59:225–51
  • Zhao XL, Yang JZ, Liu S, et al. (2014). The colonization patterns of different fungi on roots of Cymbidium hybridum plantlets and their respective inoculation effects on growth and nutrient uptake of orchid plantlets. World J Microbiol Biotechnol 30:1993–2003
  • Zhou Z, Zhang C, Zhou W, et al. (2014). Diversity and plant growth-promoting ability of endophytic fungi from the five flower plant species collected from Yunnan, Southwest China. J Plant Interact 9:585–91

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.