review article | Q7318358 |
scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1032100618 |
P356 | DOI | 10.1007/S00253-015-6487-3 |
P2888 | exact match | https://scigraph.springernature.com/pub.10.1007/s00253-015-6487-3 |
P698 | PubMed publication ID | 25750045 |
P50 | author | Tabasum Mohiuddin | Q86151347 |
P2093 | author name string | Syed Riyaz-Ul-Hassan | |
Zahoor Ahmed Wani | |||
Nasheeman Ashraf | |||
P2860 | cites work | The co-evolutionary genetics of ecological communities | Q22122014 |
Glomalean Fungi from the Ordovician | Q22299412 | ||
The endophytic fungus Piriformospora indica reprograms barley to salt-stress tolerance, disease resistance, and higher yield | Q24531281 | ||
Reactive oxygen species play a role in regulating a fungus-perennial ryegrass mutualistic interaction | Q24542382 | ||
The root endophytic fungus Piriformospora indica requires host cell death for proliferation during mutualistic symbiosis with barley | Q24673225 | ||
Endophytic microorganisms--promising applications in bioremediation of greenhouse gases | Q26859811 | ||
The potential for give and take in plant-microbiome relationships | Q26861588 | ||
Epichloë endophytes grow by intercalary hyphal extension in elongating grass leaves | Q28252363 | ||
Symbioses of grasses with seedborne fungal endophytes | Q28282948 | ||
A virus in a fungus in a plant: three-way symbiosis required for thermal tolerance | Q28285203 | ||
The microbe-free plant: fact or artifact? | Q28729892 | ||
Unraveling the role of fungal symbionts in plant abiotic stress tolerance | Q28743267 | ||
Contrasting mechanisms of defense against biotrophic and necrotrophic pathogens | Q29616814 | ||
Diversity of endophytic bacterial communities in poplar grown under field conditions | Q30840134 | ||
Generation of spatially coherent light at extreme ultraviolet wavelengths | Q31097368 | ||
Bacterial endophytes and their interactions with hosts. | Q33253636 | ||
Diversity and host range of foliar fungal endophytes: are tropical leaves biodiversity hotspots? | Q33284646 | ||
Bacterial endophytes: recent developments and applications | Q33306981 | ||
Stress tolerance in plants via habitat-adapted symbiosis | Q33318655 | ||
Fungal endophytes: diversity and functional roles. | Q33411532 | ||
Hidden fungi, emergent properties: endophytes and microbiomes | Q33435964 | ||
Metabolic potential of endophytic bacteria | Q33709936 | ||
Functional characteristics of an endophyte community colonizing rice roots as revealed by metagenomic analysis | Q34028832 | ||
Endophytic fungal association via gibberellins and indole acetic acid can improve plant growth under abiotic stress: an example of Paecilomyces formosus LHL10 | Q34124092 | ||
Endophytic fungi with antitumor activities: Their occurrence and anticancer compounds | Q38262566 | ||
The endophytic fungus Piriformospora indica stimulates the expression of nitrate reductase and the starch-degrading enzyme glucan-water dikinase in tobacco and Arabidopsis roots through a homeodomain transcription factor that binds to a conserved mo | Q38330630 | ||
The root-colonizing endophyte Pirifomospora indica confers drought tolerance in Arabidopsis by stimulating the expression of drought stress-related genes in leaves | Q39455712 | ||
Plant-endophyte-herbivore interactions: More than just alkaloids? | Q41869291 | ||
Endophytic insect-parasitic fungi translocate nitrogen directly from insects to plants. | Q42012674 | ||
Genome-Wide Characterization of ISR Induced in Arabidopsis thaliana by Trichoderma hamatum T382 Against Botrytis cinerea Infection. | Q42014516 | ||
A phosphate transporter from the root endophytic fungus Piriformospora indica plays a role in phosphate transport to the host plant. | Q42531543 | ||
Biotechnological potential of plant-associated endophytic fungi: hope versus hype | Q42697085 | ||
Single-strain inoculation may create spurious correlations between legume fitness and rhizobial fitness | Q43652396 | ||
New endophytic isolates of Muscodor albus, a volatile-antibiotic-producing fungus | Q45176727 | ||
Bacteria and phytoremediation: new uses for endophytic bacteria in plants | Q45209843 | ||
Improved nutrient use efficiency increases plant growth of rice with the use of IAA-overproducing strains of endophytic Burkholderia cepacia strain RRE25. | Q45405524 | ||
An endophytic fungus from Camptotheca acuminata that produces camptothecin and analogues | Q46177170 | ||
Endophytic actinobacteria induce defense pathways in Arabidopsis thaliana | Q46816284 | ||
An endophytic Nodulisporium sp. from Central America producing volatile organic compounds with both biological and fuel potential | Q48041361 | ||
Effect of bacterial antagonists on lettuce: active biocontrol of Rhizoctonia solani and negligible, short-term effects on nontarget microorganisms. | Q48075177 | ||
There are many ways to be a mutualist: endophytic fungus reduces plant survival but increases population growth. | Q51561910 | ||
Clavicipitaceous endophytes: Their ability to enhance resistance of grasses to multiple stresses | Q56443721 | ||
Molecular phylogenetic relationships of nonpathogenic grass mycosymbionts and clavicipitaceous plant pathogens | Q56443878 | ||
Extensive Fungal Diversity in Plant Roots | Q56989683 | ||
Biocontrol of verticillium wilt and colonization of cotton plants by an endophytic bacterial isolate | Q57118562 | ||
Fungal endophyte presence and genotype affect plant diversity and soil-to-atmosphere trace gas fluxes | Q57730808 | ||
Volatile organic compound production by organisms in the genus Ascocoryne and a re-evaluation of myco-diesel production by NRRL 50072. | Q34130999 | ||
The endophytic continuum | Q34440314 | ||
Leaf endophyte load influences fungal garden development in leaf-cutting ants | Q34472276 | ||
Induced systemic resistance (ISR) against pathogens in the context of induced plant defences | Q34521621 | ||
Endophyte or parasite--what decides? | Q34528470 | ||
Systemic acquired resistance. | Q34549706 | ||
The mycorrhizal contribution to plant productivity, plant nutrition and soil structure in experimental grassland. | Q34580764 | ||
Fungal endophytes: unique plant inhabitants with great promises | Q34628802 | ||
Spatial and temporal variation in fungal endophyte communities isolated from cultivated cotton (Gossypium hirsutum) | Q34776203 | ||
A fungal endophyte induces transcription of genes encoding a redundant fungicide pathway in its host plant. | Q34784754 | ||
The production of myco-diesel hydrocarbons and their derivatives by the endophytic fungus Gliocladium roseum (NRRL 50072). | Q34867682 | ||
Tall fescue endophyte effects on tolerance to water-deficit stress | Q34981968 | ||
The consequences of volatile organic compound mediated bacterial and fungal interactions | Q35007733 | ||
Natural products from endophytic microorganisms | Q35676868 | ||
Evolution of endophyte-plant symbioses. | Q35785548 | ||
Natural products from plant-associated microorganisms: distribution, structural diversity, bioactivity, and implications of their occurrence | Q35994187 | ||
Resolution of volatile fuel compound profiles from Ascocoryne sarcoides: a comparison by proton transfer reaction-mass spectrometry and solid phase microextraction gas chromatography-mass spectrometry | Q36108760 | ||
Muscodor albus and its biological promise | Q36402300 | ||
Mutualism effectiveness and vertical transmission of symbiotic fungal endophytes in response to host genetic background | Q36554847 | ||
The diversity of anti-microbial secondary metabolites produced by fungal endophytes: an interdisciplinary perspective | Q36718584 | ||
Comparative genome analysis of Burkholderia phytofirmans PsJN reveals a wide spectrum of endophytic lifestyles based on interaction strategies with host plants | Q36804042 | ||
The genome of the endophytic bacterium H. frisingense GSF30(T) identifies diverse strategies in the Herbaspirillum genus to interact with plants | Q36963458 | ||
Host-related metabolic cues affect colonization strategies of a root endophyte | Q37117851 | ||
Fungal endophytes in Mediterranean oak forests: a lesson from Discula quercina. | Q37305956 | ||
Plant-microbe interactions promoting plant growth and health: perspectives for controlled use of microorganisms in agriculture | Q37537071 | ||
Is plant endophyte-mediated defensive mutualism the result of oxidative stress protection? | Q37661140 | ||
Genome-wide incorporation dynamics reveal distinct categories of turnover for the histone variant H3.3. | Q37697910 | ||
What triggers grass endophytes to switch from mutualism to pathogenism? | Q37855283 | ||
Living inside plants: bacterial endophytes | Q37871183 | ||
Widespread fitness alignment in the legume-rhizobium symbiosis | Q37992173 | ||
Chemical ecology of endophytic fungi: origins of secondary metabolites | Q38030129 | ||
Multiplexed interactions: viruses of endophytic fungi | Q38090091 | ||
Sniffing on microbes: diverse roles of microbial volatile organic compounds in plant health | Q38098614 | ||
Chemical ecology mediated by fungal endophytes in grasses | Q38116799 | ||
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | endophyte | Q260335 |
P6104 | maintained by WikiProject | WikiProject Ecology | Q10818384 |
P304 | page(s) | 2955-2965 | |
P577 | publication date | 2015-03-10 | |
P1433 | published in | Applied Microbiology and Biotechnology | Q13553694 |
P1476 | title | Plant-endophyte symbiosis, an ecological perspective | |
P478 | volume | 99 |
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